CN104042199B - Characteristic index feedback system and method - Google Patents
Characteristic index feedback system and method Download PDFInfo
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- CN104042199B CN104042199B CN201410318675.0A CN201410318675A CN104042199B CN 104042199 B CN104042199 B CN 104042199B CN 201410318675 A CN201410318675 A CN 201410318675A CN 104042199 B CN104042199 B CN 104042199B
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Abstract
A characteristic index feedback system comprises a wearing device and a remote server. The wearing device is used for collecting physical indexes, environment indexes and dynamic indexes conveniently, and driving a feedback module to provide feedback for a user according to a feedback result control value of the remote server. The remote server is used for storing and calculating the physical indexes, the environmental indexes and the dynamic indexes collected by the wearing device and calculating the feedback result control value. The wearing device comprises a physical index detection module, an environment index detection module, a dynamic index detection module, a communication module and the feedback module. The remote server comprises a database, a comparison module and a control module.
Description
Technical field
The invention belongs to medical instruments field, it is related to a kind of reponse system of characteristic index and feedback method, more
Specifically, the present invention relates to a kind of by wearable device with remote server to characteristic index feedback be
System and method.
Background technology
Characteristic index body index, environmental index, state index (include height above sea level, speed, longitude and latitude
Deng) general designation, existing wearable characteristic index equipment, all be need completed with user a number of
Motion or activity completing the collection of certain characteristic index, most Wearable pedometer on such as market, all
It is that body the target such as " daily 10,000 steps ", " consuming 516 kilocalories by walking weekly " will be completed based on user
The collection of body index and statistics, meanwhile, existing Wearable characteristic index equipment does not have in addition to detection function
The function of user characteristics Indexes Abnormality can be pointed out rapidly, even if result in Wearable user's body is detected
Body Indexes Abnormality, the also still unaware situation of user.
Additionally, the change of the dynamical state such as ambient condition, speed and height above sea level is likely to lead to user's body index
Occur abnormal, thus having disease or the generation of other undesirable conditions, existing Wearable device nor with
The change of the factors such as ambient condition, speed, height above sea level and prompting user is adaptively provided.
In this context, make a can be used for Wearable device, adaptive adjusting device feedback mould
The intelligent characteristic index collection system of formula is just particularly important, will have huge market prospects simultaneously.
The present invention provides a kind of characteristic index reponse system and method, according to by the various biographies on wearable device
Sensor uploads to the letter such as body index data, environmental index data and dynamic indicator data of remote server
The change of breath carrys out the adaptive offer various feedback model of user, thus it is real-time, automatically anti-to be given to user
Feedback prompting.
Content of the invention
The present invention provides a kind of characteristic index reponse system, comprises a wearable device and a remote server, institute
The wearable device stated is for gathering after body index, environmental index and dynamic indicator according to remote service portablely
Device calculated feedback result controlling value provides the user with feedback result, and described remote server is used for depositing
Body index, environmental index and dynamic indicator that storage wearable device is gathered, and feedback result control is calculated with this
Value processed;
Wherein, described wearable device comprise body Indexs measure module, an environmental index detection module,
One dynamic indicator detection module, a feedback module, a communication module, described remote server comprises a number
According to storehouse, a comparison module and a control module;
Wherein, described body index detection module is used for referring to the body of certain detection frequency detecting user
Mark, described environmental index detection module is used for referring to certain on-site environment of detection frequency detecting user
Mark, described dynamic indicator detection module is used for the dynamic indicator of certain detection frequency detecting user, institute
The communication module stated is used for uploading respectively described body index, environmental index, dynamic indicator to described long-range
In the database of server;
Described database is used for storing in chronological order respectively the body that communication module uploads, environment, dynamic
Index, also prestores several reference body index differences intervals and several corresponding bodies in described database
Body norm controlling value, identical reference atmosphere index be interval and corresponding environmental index controlling value, identical base
Quasi dynamic index is interval and corresponding dynamic indicator controlling value, and described database also prestores body index control
Value processed, environmental index controlling value, dynamic indicator controlling value combine corresponding feedback result controlling value;
Described comparison module is used for the last body index data in called data storehouse and is referred to a front body
Mark data, and calculate the difference of the forward and backward data of body index twice, and with described reference body index error
Value interval is compared, and chooses corresponding body index controlling value, and described comparison module is additionally operable to transfer number
According to environmental index data the last in storehouse, and compare with described reference atmosphere index interval, choose and correspond to
Environmental index controlling value, described comparison module is additionally operable in called data storehouse the last dynamic indicator number
According to, and compare with described benchmark dynamic indicator interval, choose corresponding dynamic indicator controlling value;
Described control module is used for receiving body index controlling value, the environmental index control of comparison module selection
Value, dynamic indicator controlling value, and combine body index controlling value, environmental index controlling value, dynamic indicator control
Value processed, transfers in described database the corresponding feedback result controlling value of three combinations of values, and sends feedback knot
Fruit controls Value Data, and the communication module on described wearable device is additionally operable to receive described feedback result controlling value
Data.
Further, in aforesaid body index reponse system, described body index detection module comprises one
Blood pressure sensor, a heart rate sensor, an EGC sensor, a body temperature trans;Described environmental index
Detection module comprises an environment temperature sensor, fine particle (PM2.5) sensor;Described dynamic indicator
Detection module comprises a velocity sensor, an altitude sensor.
Further, described communication module is GPRS transmission equipment.
Further, described dynamic indicator detection module is a six-axle acceleration sensor, described six axles
Acceleration transducer is combined with three-axis gyroscope for three axis accelerometer.
Further, described body index comprise blood pressure high pressure index (SBP), blood pressure low pressure index (DBP),
Heart rate index (HP) and body temperature index (BTemp);Described environmental index comprises environment temperature index (ATemp)
With fine particle (PM2.5) index;Described dynamic indicator comprises speed index (S) and height above sea level refers to
Mark (H).
The present invention also provides a kind of method of characteristic index feedback, based on aforesaid characteristic index reponse system pair
The body index of user, environmental index and dynamic indicator are detected, and provide user with feedback result, have
Body step is:
Step one, by the body index detection module on described wearable device with certain detection frequency to
The body index at family is detected, by described environmental index detection module with certain detection frequency detecting
The on-site environmental index of user, by described dynamic indicator detection module with certain detection frequency detecting
The dynamic indicator of user;
Step 2, uploads described body index, environmental index, dynamic respectively by described communication module
The index extremely database of described remote server simultaneously stores;
Step 3, by body index data the last in described comparison module called data storehouse with previous
Secondary body index data, and calculate the difference of the forward and backward data of body index twice, and with described benchmark body
Body index difference interval is compared, and chooses corresponding body index controlling value, the most simultaneously storehouse in called data
A nearly environmental index data, and compare with described reference atmosphere index interval, choose corresponding environment and refer to
Mark controlling value, the last dynamic indicator data in called data storehouse simultaneously, and dynamically refer to described benchmark
Mark interval is compared, and chooses corresponding dynamic indicator controlling value;
Step 4, receives, by described control module, body index controlling value, the environment that comparison module is chosen
Norm controlling value, dynamic indicator controlling value, and combine aforementioned three item data, transfer three in described database
Combinations of values corresponding feedback result controlling value, and send feedback result control Value Data, described wearable device
On communication module receive described feedback result and control Value Data, and driving feedback module provides user with anti-
Feedback.
Further, described body index comprise blood pressure high pressure index (SBP), blood pressure low pressure index (DBP),
Heart rate index (HP) and body temperature index (BTemp), described environmental index comprises environment temperature index (ATemp)
With fine particle (PM2.5) index, described dynamic indicator comprises speed index (S) and height above sea level refers to
Mark (H).
Characteristic index reponse system proposed by the invention is capable of the mould of adaptive adjusting device feedback with method
Formula, changes when body index, user environment changes or the factor such as the speed of user, height above sea level
User can efficiently be provided with light, sound, electric feedback in the case of changing;Meanwhile, in user's body
Body index is steady, environment constant in the case of, then adjust automatically feedback model, i.e. i.e. feedback-less without exception,
Thus avoiding excessively bothering user, also make simultaneously wearable device more power saving, endurance more long, the equipment longevity
Life is longer.
Brief description
Fig. 1 is a kind of workflow diagram of characteristic index reponse system provided by the present invention;
Fig. 2 is the outside drawing of wearable device in a kind of provided by the present invention characteristic index reponse system;
Fig. 3 is the cut-away view of wearable device in a kind of provided by the present invention characteristic index reponse system.
Description of reference numerals:
100 wearable device
101 body indexs, environmental index, dynamic indicator data upload link
102 remote servers
103 feedback result controlling value transmitting link roads
Specific embodiment
A kind of embodiment of the present invention is:
A kind of characteristic index reponse system, comprises a wearable device and a remote server.As Fig. 2, Fig. 3
Shown wearable device, blood pressure sensor, heart rate sensor, EGC sensor, one
Body temperature trans collectively constitutes body index detection module;One environment temperature sensor, a fine particle
(PM2.5) sensor (not indicating in figure) composition environmental index detection module;One six-axle acceleration passes
Sensor (not indicating in figure) composition dynamic indicator detection module;One GPRS transmission equipment constitutes communication mould
Block;One LED, loudspeaker, oscillator, an electrode form feedback module.Body index is examined
Survey module to be used for gathering body blood pressure high pressure index (SBP), blood pressure low pressure index (DBP), heart rate index (HP)
With body temperature index (BTemp), environmental index detection module is used for gathering environment temperature index (ATemp) and thin
Particulate matter (PM2.5) index, aforesaid six-axle acceleration sensor is used for picking rate index (S) and sea
Pull out height marker (H).Feedback module be used for luminous, pronunciation, produce vibrations, produce weak shock current from
And the offer user that classifies is to feed back.
Remote server 102 in system shown in Figure 1 comprise a database (not in figure indicate), one
Comparison module (not indicating in figure) and a control module (not indicating in figure), certain comparison module
Can also be one with control module, the comparison control module (not indicating in figure) forming a whole.
Wherein database is used for the body, environment, dynamic indicator that storage communication module uploads in chronological order respectively,
Several reference body index differences intervals and several corresponding body indexs are also prestored in described database
Controlling value A, identical reference atmosphere index be interval and corresponding environmental index controlling value B, identical benchmark
Dynamic indicator is interval and corresponding dynamic indicator controlling value C, and described database also prestores body index control
Value A processed, environmental index controlling value B, dynamic indicator controlling value C in combination corresponding feedback result controlling value D.
Described comparison module is used for the last body index data and a front body index number in called data storehouse
According to, and calculate the difference of the forward and backward data of body index twice, and with described reference body index difference area
Between be compared, choose corresponding body index controlling value A, described comparison module is additionally operable to called data
The last environmental index data in storehouse, and compare with described reference atmosphere index interval, choose corresponding
Environmental index controlling value B, described comparison module is additionally operable in called data storehouse the last dynamic indicator number
According to, and compare with described benchmark dynamic indicator interval, choose corresponding dynamic indicator controlling value C;Described
Control module be used for receive comparison module selection body index controlling value A, environmental index controlling value B,
Dynamic indicator controlling value C, and combine body index controlling value A, environmental index controlling value B, dynamic indicator
Controlling value C, transfers in described database corresponding feedback result controlling value D of three combinations of values, and sends
Detection FREQUENCY CONTROL value D data, the communication module on described wearable device receives described feedback result and controls
Value D data, and driving feedback module provides suitable feedback.
Wherein, as shown in table 1 below, aforesaid reference body index difference is interval to be 5 piecewise intervals and 5
Individual corresponding body index controlling value A can be divided into A0, A1, A2, A3, A4, and wherein first interval is SBP
< 10, DBP < 10HP < 10, BTemp < 0.5, corresponding body index controlling value is A0;Second interval
For 20 > SBP >=10,20 > DBP >=10,20 > HP >=10,1 > BTemp >=0.5, corresponding body index
Controlling value is A1;3rd interval is 30 > SBP >=20,30 > DBP >=20,30 > HP >=20,1.5 > BTemp
>=1, corresponding body index controlling value is A2;4th interval for 40 > SBP >=30,40 > DBP >=20,
40 > HP >=30,2 > BTemp >=1.5, corresponding body index controlling value is A3;5th interval is SBP
>=40, DBP >=40, HP >=40, BTemp >=2, corresponding body body norm controlling value is A4;Described ratio
The last compared with module calls with last body blood pressure high pressure index (SBP), blood pressure low pressure index (DBP),
Heart rate index (HP) and body temperature index (BTemp) calculating difference, and according to described reference body index
Difference interval computation respective body index controlling value, it is maximum that comparison module chooses described body controlling value sequence number
Conduct final body index controlling value.Such as SBP difference is 15, corresponding A 1, and DBP difference is 10, right
Answer A1, HP difference is 30, corresponding A 3, BTemp difference is 0.5, corresponding A 1, then body index controls
Value the maximum is A3, and corresponding interval interval for the in following table the 4th, final body index controlling value is A3.
As shown in table 2 below, described reference atmosphere index is interval to be 5 piecewise intervals and 5 corresponding rings
Border norm controlling value B0, B1, B2, B3, B4, wherein first interval are 28 >=ATemp >=18, PM < 100,
Corresponding environmental index controlling value is B0;Second interval be 17 >=ATemp >=12,33 >=ATemp >=29,100
< PM < 150, corresponding environmental index controlling value is B1;3rd interval is 11 >=ATemp >=0,36 >=ATemp
>=34,150 < PM < 200, corresponding environmental index controlling value is B2;4th interval for 0 > ATemp >=-10,
39 >=ATemp >=37,200 < PM < 300, corresponding environmental index controlling value is B3;5th interval is ATemp
< -10, ATemp >=40,300 < PM < 500, corresponding environmental index controlling value is B4;Described compare mould
Block transfers environment temperature index (ATemp) and fine particle (PM2.5) index of the last time, and according to
The each self-corresponding environmental index controlling value of described reference atmosphere index interval computation, chooses ring in aforementioned index
One of border norm controlling value sequence number maximum is final environmental index controlling value.For example the last ATemp
For 19 degree, corresponding B0, PM2.5 are 250, corresponding B3, then the maximum is B3, and corresponding to interval is following table
In the 4th interval, corresponding environmental index controlling value is B3.
As shown in table 3 below, described benchmark dynamic indicator interval for 5 piecewise intervals be 5 corresponding dynamic
State norm controlling value C0, C1, C2, C3, C4, wherein first interval are S=0 or S >=25, H=0 or H
>=10000, corresponding dynamic indicator controlling value is C0;Second interval is 5 >=S > 0,400 >=H > 0, right
The dynamic indicator controlling value answered is C1;3rd interval is 10 >=S > 5,1000 >=H > 400, corresponding dynamic
Norm controlling value is C2;4th interval is 15 >=S > 10,3000 >=H > 1000, corresponding dynamic indicator control
System is worth for C3;5th interval is 25 > S > 15,10000 > H > 3000, corresponding dynamic indicator controlling value
For C4;Described comparison module transfers speed index (S) and the height above sea level index (H) of the last time, and
According to the described each self-corresponding dynamic indicator controlling value of benchmark dynamic indicator interval computation, select in aforementioned index
Take dynamic indicator controlling value sequence number maximum one is final dynamic indicator controlling value.For example, the speed recording
Index S is 15, corresponding C0, and height above sea level is 4000, corresponding C4, then final dynamic indicator controlling value is
C4.
As shown in table 4 below, described feedback result controlling value is respectively D0, D1, D2, D3, D4 five etc.
Level, wherein:Grade one is feedback-less, i.e. D0=0;Grade two is luminous prompting, and that is, D1=lights;Grade
Three is 1 audio alert, i.e. D2=pronunciation;Grade four is vibration reminding, i.e. D3=vibrations;Grade five is light current
Stream is reminded, and that is, D4=light current hits;Described feedback result controlling value and described body index controlling value, environment
Norm controlling value, the corresponding relation of dynamic indicator controlling value combination are:D0 corresponds to aforementioned three item data
The combination of A0B0C0;The sequence number at least one of corresponding described three item data A, B, the C of D1 is equal to 1, remaining
Sequence number is respectively less than 1 combination;The sequence number at least one of corresponding described three item data A, B, the C of D2 is equal to 2,
Remaining sequence number is respectively less than 2 combination;The sequence number at least one etc. of corresponding described three item data A, B, the C of D3
In 3, remaining sequence number is respectively less than 3 combination;The sequence number of corresponding described three item data A, B, the C of D4 is at least
One is equal to 4, and remaining sequence number is respectively less than 4 combination.The body index controlling value that for example comparison module calculates
For A1, environmental index controlling value is B3, and dynamic indicator controlling value is C4, then control module is calculated instead
Feedback output control value is D4.
For example, user under effective linking status wearable device and pass through each sensor detection data, every 30
Minute detection once uploads once.Now afternoon 17 May 13 2014 time:34 points, location is
Shanghai, user items body data be:SBP96, DBP64, HR80, BTemp37.4 degree, ATemp27 degree,
PM156., after GPRS module is uploaded to remote server, system can be by this data and user for this group data
Data Comparison in the past, and last data is SBP86, DBP56, HR68, BTemp36.8 degree, then this time
As shown by data heart rate and body temperature slightly raise (A1), then integrated environment PM2.5 value and multidate information, system meeting
Lifting feedback levels are to feedback levels two (D1), and this setting is passed to wearable device and carried out feedback model set
Put renewal.Hereafter, wearable device can luminous prompting user concern condition.If after half an hour, user
Body temperature rises to 37.9 degree (A2), and heart rate and blood pressure are also slightly elevated, and other environment, multidate information are constant,
Then system can improve feedback levels again to grade three (D2), after system arranges wearable device automatically, can
Wearable device meeting voice message user, pays close attention to condition.When the body data that system receives again continues
Change, such as body temperature rises to 38.6 (A3) degree, then system can lift feedback levels extremely feedback etc. again
Level four (D3), to point out user, body has gone out unusual condition.When body temperature rises to 39.5 (A4), then system
Feedback mechanism is promoted to highest feedback levels five, wearable device can send light current by electrode, for piercing
Sharp user, points out the state of emergency.
An alternative embodiment of the invention is:
A kind of characteristic index feedback method as shown in Figure 1, aforesaid characteristic index reponse system is to user's
Body index, environmental index and dynamic indicator are detected, concretely comprise the following steps:
Step one, by the body index detection module on described wearable device 100 with certain detection frequency
The body index of user is detected, by described environmental index detection module with certain detection frequency
The detection on-site environmental index of user, by described dynamic indicator detection module with certain detection frequency
The dynamic indicator of detection user;
Step 2, by described communication module respectively through body index, environmental index, dynamic indicator number
Upload described body index, environmental index, dynamic indicator to described remote server according to uploading link 101
102 database simultaneously stores;
Step 3, by body index data the last in described comparison module called data storehouse with previous
Secondary body index data, and calculate the difference of the forward and backward data of body index twice, and with described benchmark body
Body index difference interval is compared, and chooses corresponding body index controlling value, the most simultaneously storehouse in called data
A nearly environmental index data, and compare with described reference atmosphere index interval, choose corresponding environment and refer to
Mark controlling value, the last dynamic indicator data in called data storehouse simultaneously, and dynamically refer to described benchmark
Mark interval is compared, and chooses corresponding dynamic indicator controlling value;
Step 4, receives, by described control module, body index controlling value, the environment that comparison module is chosen
Norm controlling value, dynamic indicator controlling value, and combine aforementioned three item data, transfer three in described database
Combinations of values corresponding feedback result controlling value, and sent instead by feedback result controlling value transmitting link road 103
Feedback output control Value Data, the communication module on described wearable device 100 receives described feedback result and controls
Value Data, and driving feedback module provides user to feed back with suitable.
Aforesaid body index comprises blood pressure high pressure index (SBP), blood pressure low pressure index (DBP), heart rate refer to
Mark (HP) and body temperature index (BTemp), described environmental index comprise environment temperature index (ATemp) and
Fine particle (PM2.5) index, described dynamic indicator comprises speed index (S) and height above sea level index
(H);
Described reference body index difference is interval to be 5 piecewise intervals and 5 corresponding body indexs control
Value A0, A1, A2, A3, A4, wherein first interval are SBP < 10, DBP < 10, HP < 10, BTemp
< 0.5, corresponding body index controlling value is A0;Second interval be 20 > SBP >=10,20 > DBP >=10,
20 > HP >=10,1 > BTemp >=0.5, corresponding body index controlling value is A1;3rd interval is 30 > SBP
>=20,30 > DBP >=20,30 > HP >=20,1.5 > BTemp >=1, corresponding body index controlling value is
A2;4th interval is 40 > SBP >=30,40 > DBP >=20,40 > HP >=30,2 > BTemp >=1.5,
Corresponding body index controlling value is A3;5th interval is SBP >=40, DBP >=40, HP >=40, BTemp
>=2, corresponding body index controlling value is A4;Described comparison module is transferred the last with last
Body blood pressure high pressure index (SBP), blood pressure low pressure index (DBP), heart rate index (HP) and body temperature index (BTemp)
And calculating difference, and according to the described respective body index controlling value of reference body index difference interval computation,
Comparison module chooses the maximum conduct final body index controlling value of described body controlling value sequence number;
Described reference atmosphere index is interval to be 5 piecewise intervals and 5 corresponding environmental index controlling values
B0, B1, B2, B3, B4, wherein first interval are 28 >=ATemp >=18, PM < 100, corresponding environment
Norm controlling value is B0;Second interval is 17 >=ATemp >=12,33 >=ATemp >=29,100 < PM < 150,
Corresponding environmental index controlling value is B1;3rd interval be 11 >=ATemp >=0,36 >=ATemp >=34,150
< PM < 200, corresponding environmental index controlling value is B2;4th interval for 0 > ATemp >=-10,39 >=
ATemp >=37,200 < PM < 300, corresponding environmental index controlling value is B3;5th interval is ATemp
< -10, ATemp >=40,300 < PM < 500, corresponding environmental index controlling value is B4;Described compare mould
Block transfers environment temperature index (ATemp) and fine particle (PM2.5) index of the last time, and according to
The each self-corresponding environmental index controlling value of described reference atmosphere index interval computation, chooses ring in aforementioned index
One of border norm controlling value sequence number maximum is final environmental index controlling value;
Described benchmark dynamic indicator is interval to be 5 corresponding dynamic indicator controlling values for 5 piecewise intervals
C0, C1, C2, C3, C4, wherein first interval are S=0 or S >=25, H=0 or H >=10000, corresponding
Dynamic indicator controlling value be C0;Second interval is 5 >=S > 0,400 >=H > 0, corresponding dynamic indicator control
System is worth for C1;3rd interval is 10 >=S > 5,1000 >=H > 400, and corresponding dynamic indicator controlling value is
C2;4th interval is 15 >=S > 10,3000 >=H > 1000, and corresponding dynamic indicator controlling value is C3;The
Five intervals are 25 > S > 15,10000 > H > 3000, and corresponding dynamic indicator controlling value is C4;Described
Comparison module is used for transferring speed index (S) and the height marker (H) of the last time, and according to described base
The each self-corresponding dynamic indicator controlling value of Quasi dynamic index interval computation, and choose dynamic indicator controlling value sequence number
Maximum one is final dynamic indicator controlling value;
Described feedback result controlling value is respectively five grades of D0, D1, D2, D3, D4, its middle grade one
For feedback-less, i.e. D0=0;Grade two is luminous prompting, and that is, D1=lights;Grade three is 1 audio alert,
I.e. D2=pronunciation;Grade four is vibration reminding, i.e. D3=vibrations;Grade five is reminded for weak current, and that is, D4=is weak
Electric shock;
Described feedback result controlling value and described body index controlling value, environmental index controlling value, dynamically finger
Mark controlling value combination corresponding relation be:Corresponding aforementioned three item data of D0 are the combination of A0B0C0;D1 corresponds to
The sequence number of described three item data A, B, C at least one is equal to 1, and remaining sequence number is respectively less than 1 combination;
The sequence number at least one of corresponding described three item data A, B, the C of D2 is equal to 2, and remaining sequence number is respectively less than 2
Combination;The sequence number at least one of corresponding described three item data A, B, the C of D3 is equal to 3, and remaining sequence number is all little
In 3 combination;The sequence number at least one of corresponding described three item data A, B, the C of D4 is equal to 4, remaining sequence
Number be respectively less than 4 combination.
Those of ordinary skill in the art can be in other optional structures of anticipation and embodiment or above-described embodiment
On changed.Above-mentioned all embodiments belong within the scope of the present invention, but are not used in the restriction present invention
Protection domain.
Claims (8)
1. a kind of characteristic index reponse system, comprise a wearable device and a remote server it is characterised in that:
Described wearable device provides the user with feedback result according to remote server calculated feedback result controlling value after being used for gathering body index, environmental index and dynamic indicator portablely, described remote server is used for storing body index, environmental index and the dynamic indicator that wearable device is gathered, and calculates feedback result controlling value with this;
Wherein, described wearable device comprises body Indexs measure module, an environmental index detection module, a dynamic indicator detection module, a communication module, a feedback module, and described remote server comprises a database, a comparison module and a control module;
Wherein, described body index detection module is used for the body index of certain detection frequency detecting user, described environmental index detection module is used for certain on-site environmental index of detection frequency detecting user, described dynamic indicator detection module is used for the dynamic indicator of certain detection frequency detecting user, and described communication module is used for uploading in described body index, environmental index, the dynamic indicator extremely database of described remote server;Described feedback module is used for providing user feedback result;
Described database is used for the body, environment, dynamic indicator that storage communication module uploads in chronological order respectively, also prestore in described database that several reference body index differences are interval and corresponding body index controlling value, identical reference atmosphere index be interval and corresponding environmental index controlling value, identical benchmark dynamic indicator be interval and corresponding dynamic indicator controlling value, and described database also prestores body index controlling value, environmental index controlling value, dynamic indicator controlling value combine corresponding feedback result controlling value;
Described comparison module is used for the last body index data and a front body index data in called data storehouse, before calculating, the difference of body index data twice afterwards, and be compared with described reference body index difference interval, choose corresponding body index controlling value, described comparison module is additionally operable in called data storehouse the last environmental index data, compare with described reference atmosphere index interval, choose corresponding environmental index controlling value, described comparison module is additionally operable in called data storehouse the last dynamic indicator data, compare with described benchmark dynamic indicator interval, choose corresponding dynamic indicator controlling value;
Described control module is for receiving the body index controlling value that comparison module is chosen, environmental index controlling value, dynamic indicator controlling value, and combine body index controlling value, environmental index controlling value, dynamic indicator controlling value, transferring in described database the corresponding feedback result controlling value of three combinations of values, and send feedback result by described communication module controls the feedback module to wearable device for the Value Data to user with feedback result.
2. characteristic index reponse system as claimed in claim 1 is it is characterised in that described body index detection module comprises a blood pressure sensor, a heart rate sensor, an EGC sensor, a body temperature trans;Described environmental index detection module comprises an environment temperature sensor, fine particle (PM2.5) sensor;Described dynamic indicator detection module comprises a velocity sensor, an altitude sensor;Described feedback module comprise one for luminous LED, one be used for the loudspeaker of pronunciation, one be used for producing the oscillator of vibrations, one for producing the electrode of weak shock current.
3. characteristic index reponse system as claimed in claim 1 is it is characterised in that described communication module is GPRS transmission equipment.
4. it is characterised in that described dynamic indicator detection module is a six-axle acceleration sensor, described six-axle acceleration sensor is combined with three-axis gyroscope characteristic index reponse system as claimed in claim 1 for three axis accelerometer.
5. characteristic index reponse system as claimed in claim 1 is it is characterised in that described body index comprises blood pressure high pressure index S BP, blood pressure low pressure index DBP, heart rate index HP and body temperature index BTemp;Described environmental index comprises environment temperature index ATemp and fine particle PM2.5 index;Described dynamic indicator comprises speed index S and height above sea level index H.
6. characteristic index reponse system as claimed in claim 5, it is characterized in that described reference body index difference interval is 5 piecewise intervals and 5 corresponding body index controlling values A0, A1, A2, A3, A4, wherein first interval is SBP < 10, DBP < 10, HP < 10, BTemp < 0.5, and corresponding body index controlling value is A0;Second interval is 20 > SBP >=10,20 > DBP >=10,20 > HP >=10,1 > BTemp >=0.5, and corresponding body index controlling value is A1;3rd interval is 30 > SBP >=20,30 > DBP >=20,30 > HP >=20,1.5 > BTemp >=1, and corresponding body index controlling value is A2;4th interval is 40 > SBP >=30,40 > DBP >=20,40 > HP >=30,2 > BTemp >=1.5, and corresponding body index controlling value is A3;5th interval is SBP >=40, DBP >=40, HP >=40 or BTemp >=2, and corresponding body index controlling value is A4;Described comparison module is used for transferring the last with last blood pressure high pressure index (SBP) in described database, blood pressure low pressure index (DBP), heart rate index (HP) and body temperature index (BTemp) calculating difference, and according to the described respective body index controlling value of reference body index difference interval computation, and choose the maximum conduct final body index controlling value of described body index controlling value sequence number;
Described reference atmosphere index is interval to be 5 piecewise intervals and 5 corresponding environmental index controlling values B0, B1, B2, B3, B4, and wherein first interval is 28 >=ATemp >=18, PM2.5 < 100, and corresponding environmental index controlling value is B0;Second interval is 17 >=ATemp >=12,33 >=ATemp >=29,100 < PM2.5 < 150, and corresponding environmental index controlling value is B1;3rd interval is 11 >=ATemp >=0,36 >=ATemp >=34,150 < PM2.5 < 200, and corresponding environmental index controlling value is B2;4th interval is 0 > ATemp >=-10,39 >=ATemp >=37,200 < PM2.5 < 300, and corresponding environmental index controlling value is B3;5th interval is ATemp < -10, ATemp >=40,300 < PM2.5 < 500, and corresponding environmental index controlling value is B4;Described comparison module is used for transferring the last environment temperature index (ATemp) in described database and fine particle (PM2.5) index, and according to the described each self-corresponding environmental index controlling value of reference atmosphere index interval computation, and of selection environment norm controlling value sequence number maximum is final environmental index controlling value;
Described benchmark dynamic indicator is interval to be 5 piecewise intervals and 5 corresponding dynamic indicator controlling values C0, C1, C2, C3, C4, and wherein first interval is S=0 or S >=25 or H=0 or H >=10000, and corresponding dynamic indicator controlling value is C0;Second interval is 5 >=S > 0 or 400 >=H > 0, and corresponding dynamic indicator controlling value is C1;3rd interval is 10 >=S > 5 or 1000 >=H > 400, and corresponding dynamic indicator controlling value is C2;4th interval is 15 >=S > 10 or 3000 >=H > 1000, and corresponding dynamic indicator controlling value is C3;5th interval is 25 > S > 15 or 10000 > H > 3000, and corresponding dynamic indicator controlling value is C4;Described comparison module is used for transferring speed index (S) and the height marker (H) of the last time, and according to the described each self-corresponding dynamic indicator controlling value of benchmark dynamic indicator interval computation, and to choose maximum one of dynamic indicator controlling value sequence number be final dynamic indicator controlling value.
7. characteristic index reponse system as claimed in claim 6 is it is characterised in that described feedback result controlling value is respectively five grades of D0, D1, D2, D3, D4, wherein:Grade one is feedback-less, i.e. D0=0;Grade two is luminous prompting, and that is, D1=lights;Grade three is 1 audio alert, i.e. D2=pronunciation;Grade four is vibration reminding, i.e. D3=vibrations;Grade five is reminded for weak current, and that is, D4=light current hits.
8. characteristic index reponse system as claimed in claim 7 is it is characterised in that the corresponding relation that described feedback result controlling value is combined with described body index controlling value, environmental index controlling value, dynamic indicator controlling value is:Corresponding aforementioned three item data of D0 are the combination of A0B0C0;The sequence number at least one of corresponding described three item data A, B, the C of D1 is equal to 1, and remaining sequence number is respectively less than 1 combination;The sequence number at least one of corresponding described three item data A, B, the C of D2 is equal to 2, and remaining sequence number is respectively less than 2 combination;The sequence number at least one of corresponding described three item data A, B, the C of D3 is equal to 3, and remaining sequence number is respectively less than 3 combination;The sequence number at least one of corresponding described three item data A, B, the C of D4 is equal to 4, and remaining sequence number is respectively less than 4 combination.
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