CN103701504A

CN103701504A - Sign monitor based on wireless synchronization technology

Info

Publication number: CN103701504A
Application number: CN201410017957.7A
Authority: CN
Inventors: 李漾; 郭力
Original assignee: Individual
Current assignee: Individual
Priority date: 2014-01-13
Filing date: 2014-01-13
Publication date: 2014-04-02
Anticipated expiration: 2034-01-13
Also published as: CN103701504B

Abstract

The invention discloses a sign monitor based on a wireless synchronization technology. The sign monitor based on the wireless synchronization technology comprises a sign monitoring end and a data synchronization end, wherein the sign monitoring end comprises at least one sign monitoring device; the data synchronization end comprises at least one data synchronization device; each sign monitoring device comprises a temperature collection module, an electrocardio collection module, a displacement sensor, a GPS (Global Position System) module, an acceleration sensor, a first storage module, a clock module, a first Bluetooth adapter and a first processor; and each data synchronization device comprises a second Bluetooth adapter, a second storage module and a second processor. Sign parameters obtained by the sign monitor based on the wireless synchronization technology are rich, and are closely related to the movement state of a user; and the user can know about the movement state and the movement effect in real time through these data.

Description

Sign monitor based on wireless synchronization technology

Technical field

The present invention relates to a kind of sign monitor, be specially a kind of sign detector based on wireless synchronization technology.

Background technology

Along with the progressively raising of popular life level, increasing crowd strengthens day by day for the demand of healthy living, and how effectively with a kind of more healthy manner, to promote personal health state is the problem that non-medical knowledge crowd is considered always.The product that has occurred in the market a large amount of monitorings and recorder's behavioral activity for this kind of demand, as sports watch, heart rate band, portable sphygmomanometer, mobile phone electrocardiogram equipment etc., the innovation and creation that for example application number is 201110043631.8 provide a kind of Sleeping Center to jump and have breathed wireless monitor and early warning system, the innovation and creation that application number is 200410068564.5 provide a kind of wearable heartbeat measuring device, system and method, the innovation and creation that application number is 200520130994.5 provide dynamic heart beat detection recorder, the innovation and creation that application number is 200920134851.X provide a kind of control circuit of novel heart rate pedometer, http://www.codoon.com/ provides a kind of thud bracelet.

The subject matter of the said goods is that gathered user behavior data is more single, and the collection of exercise data and individual sign data has obvious boundary, causes multidimensional data by efficient association, cannot judge accurately user's motion conditions, after the user behavior data of its storage of product of simultaneously monitoring in the market and recorder's behavioral activity often needs to use by transmission and the derivation of USB interface completing user behavioral data, and limited often for monitoring with the memory space of the product of recorder's behavioral activity, user needs in time the user behavior data of its storage to be derived by USB interface, in order to avoid owing to not having sufficient memory space to affect use, or the real-time data transmission that need to the product of monitoring and recorder's behavioral activity be gathered by communication is to External memory equipment, when monitoring and the product of recorder's behavioral activity be not in the situation that there is no External memory equipment, the storage inconvenience of user behavior data.

Summary of the invention

The present invention is directed to the proposition of above problem, and develop a kind of sign detector based on wireless synchronization technology.

Technological means of the present invention is as follows:

A sign monitor based on wireless synchronization technology, comprises that sign monitoring side and data synchronously hold;

Described sign monitoring side comprises at least one semiotic monitor;

The synchronous end of described data comprises at least one data synchronization unit;

Each semiotic monitor comprises:

For gathering the temperature collect module of user's shell temperature and current environmental temperature;

For gathering the electrocardiogram acquisition module of user's palmic rate;

For gathering the displacement transducer of user's change in displacement;

GPS module for detection of current height above sea level;

The acceleration transducer of the step number that the acceleration while moving for detection of user and calculating user walk or run;

For in advance storage user height, sex, body weight and age data, and the stride that first processor is got, distance, speed, calorie consumption and maximal oxygen uptake data first memory module of storing;

Clock module;

The first Bluetooth adapter;

Connect temperature collect module, electrocardiogram acquisition module, displacement transducer, GPS module, acceleration transducer, the first memory module, clock module and the first Bluetooth adapter, for user's shell temperature and the current environmental temperature gathering according to temperature collect module, user's palmic rate that electrocardiogram acquisition module gathers, user's change in displacement that displacement transducer gathers, the current height above sea level that GPS module detects, the step number that acceleration when the user that acceleration transducer detects moves and the user who calculates walk or run, user's height that the first memory module is stored, sex, body weight and age data, and the system time that provides of clock module, utilize stride algorithm, distance algorithm, rate algorithm, calorie consumes algorithm and maximal oxygen uptake algorithm gets stride, distance, speed, calorie consumes and maximal oxygen uptake data, and by the stride getting, distance, speed, calorie consumption and maximal oxygen uptake data are transferred to data by the first Bluetooth adapter and synchronously hold, and are stored to the first processor in the first memory module,

Each data synchronization unit comprises:

The second Bluetooth adapter being connected with the first Bluetooth adapter;

For storing the second memory module of stride, distance, speed, calorie consumption and maximal oxygen uptake data that sign monitoring side transmits;

Connect the second Bluetooth adapter and the second memory module, for stride, distance, speed, calorie consumption and the maximal oxygen uptake data that sign monitoring side is transmitted by the second Bluetooth adapter, be stored to the second processor of the second memory module;

Further, described semiotic monitor also comprises for gathering the baroceptor of the atmospheric value under current height above sea level; Described baroceptor is connected with first processor;

Further, described data synchronization unit also comprises the USB interface being connected with the second processor; The stride that described data synchronization unit is stored the second memory module by USB interface, distance, speed, calorie consumption and maximal oxygen uptake transfer of data are to external electronic device;

Further, described first processor is stored in stride, distance, speed, calorie consumption and maximal oxygen uptake data in the first memory module one by one according to the sequencing of data acquisition time;

Further, arbitrary semiotic monitor is set up Bluetooth pairing by the first Bluetooth adapter with the second Bluetooth adapter of arbitrary data synchronization unit and is connected;

Further, after arbitrary semiotic monitor and a data synchronization unit are set up Bluetooth pairing and are connected, this semiotic monitor sends the stride of its storage, distance, speed, calorie consumption and maximal oxygen uptake data to data synchronization unit one by one, described data synchronization unit often receives the data that semiotic monitor sends and just sends acknowledge message to semiotic monitor, and semiotic monitor receives these data that sent of deleting its storage after the acknowledge message that data synchronization unit sends over; If semiotic monitor does not receive the acknowledge message that data synchronization unit sends over, semiotic monitor resends current data three times, if semiotic monitor does not receive the acknowledge message that data synchronization unit sends over yet after resending this data three times, semiotic monitor stops data transmission, carries out mark to not sending successfully current data simultaneously.

Owing to having adopted technique scheme, the sign monitor based on wireless synchronization technology provided by the invention, wherein sign monitoring side comprises at least one semiotic monitor, a plurality of semiotic monitors can be distributed to different users and use, the synchronous end of described data comprises at least one data synchronization unit, arbitrary semiotic monitor can be set up Bluetooth pairing with a data synchronization unit and be connected, set up after Bluetooth pairing connection, can realize semiotic monitor and data synchronization unit and immediately complete efficiently data synchronization process, be convenient to the instant storage of the data that semiotic monitor obtains and synchronous, save data accurately and conveniently, and semiotic monitor can according to gathered data in conjunction with storage user's characteristic as user's height, sex, body weight and age data, utilize stride algorithm, distance algorithm, rate algorithm, calorie consumes algorithm and maximal oxygen uptake algorithm gets stride, distance, speed, calorie consumes and maximal oxygen uptake data, the physical sign parameters getting is abundant, and closely related with user's motion state, be convenient to user and understand in real time motion state and movement effects by these data.

Accompanying drawing explanation

Fig. 1 is structured flowchart of the present invention;

Fig. 2 is the circuit theory diagrams of the included temperature collect module of semiotic monitor of the present invention;

Fig. 3 is the circuit theory diagrams of the included electrocardiogram acquisition module of semiotic monitor of the present invention;

Fig. 4 is the circuit theory diagrams of the included acceleration transducer of semiotic monitor of the present invention;

Fig. 5 is the circuit theory diagrams of the first included memory module of semiotic monitor of the present invention;

Fig. 6 is the circuit theory diagrams of the first included Bluetooth adapter of semiotic monitor of the present invention;

Fig. 7 is the circuit theory diagrams of the included first processor of semiotic monitor of the present invention;

Fig. 8 is the circuit theory diagrams of the included power module of semiotic monitor of the present invention;

Fig. 9 is the circuit theory diagrams of the included clock module of semiotic monitor of the present invention.

Embodiment

A kind of sign monitor based on wireless synchronization technology as shown in Figure 1, comprises that sign monitoring side and data synchronously hold, described sign monitoring side comprises at least one semiotic monitor, the synchronous end of described data comprises at least one data synchronization unit, each semiotic monitor comprises: for gathering the temperature collect module of user's shell temperature and current environmental temperature, for gathering the electrocardiogram acquisition module of user's palmic rate, for gathering the displacement transducer of user's change in displacement, GPS module for detection of current height above sea level, the acceleration transducer of the step number that the acceleration while moving for detection of user and calculating user walk or run, for in advance storage user height, sex, body weight and age data, and the stride that first processor is got, distance, speed, calorie consumption and maximal oxygen uptake data first memory module of storing, clock module, the first Bluetooth adapter, connect temperature collect module, electrocardiogram acquisition module, displacement transducer, GPS module, acceleration transducer, the first memory module, clock module and the first Bluetooth adapter, for user's shell temperature and the current environmental temperature gathering according to temperature collect module, user's palmic rate that electrocardiogram acquisition module gathers, user's change in displacement that displacement transducer gathers, the current height above sea level that GPS module detects, the step number that acceleration when the user that acceleration transducer detects moves and the user who calculates walk or run, user's height that the first memory module is stored, sex, body weight and age data, and the system time that provides of clock module, utilize stride algorithm, distance algorithm, rate algorithm, calorie consumes algorithm and maximal oxygen uptake algorithm gets stride, distance, speed, calorie consumes and maximal oxygen uptake data, and by the stride getting, distance, speed, calorie consumption and maximal oxygen uptake data are transferred to data by the first Bluetooth adapter and synchronously hold, and are stored to the first processor in the first memory module, each data synchronization unit comprises: the second Bluetooth adapter being connected with the first Bluetooth adapter, for storing the second memory module of stride, distance, speed, calorie consumption and maximal oxygen uptake data that sign monitoring side transmits, connect the second Bluetooth adapter and the second memory module, for stride, distance, speed, calorie consumption and the maximal oxygen uptake data that sign monitoring side is transmitted by the second Bluetooth adapter, be stored to the second processor of the second memory module, further, described semiotic monitor also comprises for gathering the baroceptor of the atmospheric value under current height above sea level, described baroceptor is connected with first processor, further, described data synchronization unit also comprises the USB interface being connected with the second processor, the stride that described data synchronization unit is stored the second memory module by USB interface, distance, speed, calorie consumption and maximal oxygen uptake transfer of data are to external electronic device, further, described first processor is stored in stride, distance, speed, calorie consumption and maximal oxygen uptake data in the first memory module one by one according to the sequencing of data acquisition time, further, arbitrary semiotic monitor is set up Bluetooth pairing by the first Bluetooth adapter with the second Bluetooth adapter of arbitrary data synchronization unit and is connected, further, after arbitrary semiotic monitor and a data synchronization unit are set up Bluetooth pairing and are connected, this semiotic monitor sends the stride of its storage, distance, speed, calorie consumption and maximal oxygen uptake data to data synchronization unit one by one, described data synchronization unit often receives the data that semiotic monitor sends and just sends acknowledge message to semiotic monitor, and semiotic monitor receives these data that sent of deleting its storage after the acknowledge message that data synchronization unit sends over, if semiotic monitor does not receive the acknowledge message that data synchronization unit sends over, semiotic monitor resends current data three times, if semiotic monitor does not receive the acknowledge message that data synchronization unit sends over yet after resending this data three times, semiotic monitor stops data transmission, carries out mark to not sending successfully current data simultaneously.

Sign of the present invention monitoring side comprises at least one semiotic monitor, and a plurality of semiotic monitors can be distributed to different users and use; The synchronous end of described data comprises at least one data synchronization unit, can share a data synchronization unit by a plurality of semiotic monitors, also can share a plurality of data synchronization units by a semiotic monitor, as long as semiotic monitor and data synchronization unit can successful matchings by Bluetooth adapter, just can complete arbitrary semiotic monitor and synchronize with the data between arbitrary data synchronization unit; Described data synchronization unit also comprises the USB interface being connected with the second processor; Described data synchronization unit by USB interface by the stride of its storage, distance, speed, calorie consume and maximal oxygen uptake transfer of data to user's space or external electronic device, be convenient to that the data of storing in data synchronization unit are exported to external electronic device and preserve.

Described stride algorithm can be: stride=A1+A2* cadence, the step number that the user that wherein cadence equals to calculate in the acceleration transducer unit interval walks or runs, the value of A1, A2 is measured the change of distance of certain step number by GPS module or displacement transducer in advance, due to distance=stride * step number, therefore stride just can draw divided by step number by the change of distance of measuring, carry out measuring for 2 times and set up equation, just can solve parameter A 1 and parameter A 2 in stride=A1+A2* cadence, using parameter as constant, bring in formula, metering cadence just can draw stride.

Described stride algorithm can also be: the current height above sea level+A6* of stride=A3+A4* cadence+A5* acceleration variance, the step number that the user that wherein cadence equals to calculate in the acceleration transducer unit interval walks or runs, current height above sea level detects by GPS module, the acceleration when user that acceleration variance detects according to acceleration transducer moves is tried to achieve, A3, A4, A5, the value of A6 is measured the change of distance of certain step number by GPS module or displacement transducer in advance, due to distance=stride * step number, therefore stride just can draw divided by step number by the change of distance of measuring, carry out measuring for 4 times and set up equation, just can solve the parameter A 3 of the current height above sea level+A6* of stride=A3+A4* cadence+A5* acceleration variance, A4, A5, A6, using parameter as constant, bring in formula, measure cadence, current height above sea level and acceleration variance and just can draw stride.

Described distance algorithm can be: distance=stride * step number, and wherein stride is tried to achieve by above-mentioned stride algorithm, and the step number that the user that step number is calculated according to acceleration transducer walks or runs is learnt.

Described distance algorithm can also be:

wherein D is distance, S _ibe the stride of i step, i=1,2 ..., n.

Described rate algorithm can be: speed=distance/(motion end time-exercise duration), and distance draws by above-mentioned distance algorithm, the motion duration system time that end time-exercise duration provides by clock module that moves is determined;

Described calorie of consumption algorithm can be: C ₁=BMR*t*B1*MET(activity kind, speed, Activity Type)+B2*T, wherein C ₁for calorie consumption, BMR is basal metabolic rate, refer to that human body is under clear-headed and extreme quietly state, be not subject to the relative metabolic rate under muscle activity, ambient temperature, food and nervous impact, BMR=655.1+9.6* body weight+1.8* height-4.7* age for women, BMR=65.5+13.7* body weight+5* height-6.8* age for the male sex, t is motion duration, and the system time providing by clock module is determined, under B1 initial condition, can be set to 1.0, can be set to 0.01, B1, B2 under B2 initial condition and can to the calorie calculating, consume a result by user and carry out feedback modifiers, MET refers to metabolic equivalent, has another name called met, is that the energy consumption while take the quiet seat of people is basis, the common counter of relative energy metaboilic level while expressing comings and goings, 1MET may be defined as the oxygen that per kilogram of body weight is engaged in 1 minute movable 3.5ml of consumption, and its activity intensity is called 1MET(1MET=3.5mlO ₂/ kg divides), the activity intensity of 1MET is equivalent to the quiet metaboilic level of health adult's seat, MET(activity kind, speed, Activity Type) be equivalent to one according to different activity kinds, speed and Activity Type are determined the look-up-table function of MET value, table 1 is different activity kinds, corresponding metabolic equivalent (MET) table under speed and Activity Type, wherein activity kind and Activity Type can be set by the user, also can be according to historical data such as corresponding which kind of Activity Type of much speed and many hypermetabolisms equivalent and activity kind are set, if this situation user thinks that setting is wrong simultaneously, can proofread and correct, T is the current environmental temperature that temperature collect module gathers,

Corresponding metabolic equivalent (MET) table under the different activity kinds of table 1., speed and Activity Type.

Described calorie of consumption algorithm can also be:

[B3*MET(activity kind, speed, Activity Type)+B4*T] * t _j, C wherein ₂for calorie consumption, BMR is basal metabolic rate, refer to that human body is under clear-headed and extreme quietly state, be not subject to the relative metabolic rate under muscle activity, ambient temperature, food and nervous impact, BMR=655.1+9.6* body weight+1.8* height-4.7* age for women, BMR=65.5+13.7* body weight+5* height-6.8* age for the male sex, j is 1,2 ..., n, under B3 initial condition, can be set to can be set to 0.01/n under 1/n, B4 initial condition, MET refers to metabolic equivalent, has another name called met, is that the energy consumption while take the quiet seat of people is basis, the common counter of relative energy metaboilic level while expressing comings and goings, 1MET may be defined as the oxygen that per kilogram of body weight is engaged in 1 minute movable 3.5ml of consumption, and its activity intensity is called 1MET(1MET=3.5mlO ₂/ kg divides), the activity intensity of 1MET is equivalent to the quiet metaboilic level of health adult's seat, MET(activity kind, speed, Activity Type) be equivalent to one according to different activity kinds, speed and Activity Type are determined the look-up-table function of MET value, table 1 is different activity kinds, corresponding metabolic equivalent (MET) table under speed and Activity Type, wherein activity kind and Activity Type can be set by the user, also can be according to historical data such as corresponding which kind of Activity Type of much speed and many hypermetabolisms equivalent and activity kind are set, if this situation user thinks that setting is wrong simultaneously, can proofread and correct, T is the current environmental temperature that temperature collect module gathers, t _jbe the duration of j section motion, the system time providing by clock module is determined,

Described calorie of consumption algorithm can also be: C ₃=t* ((K ₁* P _a)+(K ₂* Ag)+(K ₃* W)+K ₄)/4.184)), C wherein ₃for calorie consumption; T is motion duration, and the system time providing by clock module is determined; When user is the male sex, K ₁, K ₂, K ₃, K ₄be respectively 0.63,0.2,0.2 ,-55; When user is women, K ₁, K ₂, K ₃, K ₄be respectively 0.45,0.07,0.13 ,-20; P _afor average heart rate, by electrocardiogram acquisition module, gather user's palmic rate of 1 minute; Ag is the age; W is body weight.

Described calorie of consumption algorithm can also be: C ₄=t* ((K ₁* P _a)+(K ₂* VO2Max)+(K ₃* W)+(K ₄* Ag)+K ₅))/4.184)), C wherein ₄for calorie consumption; T is motion duration, and the system time providing by clock module is determined; When user is the male sex, K ₁, K ₂, K ₃, K ₄, K ₅be respectively 0.63,0.4,0.39,0.27 ,-95.8, when user is women, K ₁, K ₂, K ₃, K ₄, K ₅be respectively 0.45,0.38,0.10,0.27 ,-59.4; P _afor average heart rate, by electrocardiogram acquisition module, gather the palmic rate of user 1min; VO2 _maxfor maximal oxygen uptake, can draw by maximal oxygen uptake algorithm below; Ag is the age; W is body weight.

Wherein calorie consumes algorithm C ₃and C ₄in conjunction with the experiment of Human physiology field and article Keytel LR, Goedecke JH, Noakes TD, Hiiloskorpi H, Laukkanen R, van der Merwe L, Lambert EV. " Prediction of energy expenditure from heart rate monitoring during submaximal exercise ", Tanaka H, Monahan KD, Seals DR.-" Age-predicted maximal heart rate revisited ", Swain DP, Abernathy KS, Smith CS, Lee SJ, Bunn SA-" Target heart rates for the development of cardiorespiratory fitness " adapts formation.

Described calorie of consumption algorithm can also be: C=w ₁c ₁+ w ₂c ₂+ w ₃c ₃+ w ₄c ₄, C wherein ₁, C ₂, C ₃, C ₄be respectively above-mentioned calorie and consume the calorie consumption figures that algorithm calculates, w ₁, w ₂, w ₃, w ₄be respectively according to above-mentioned different calories and consume the weight that the issuable error of algorithm sets, concrete w ₁, w ₂, w ₃, w ₄can be set as respectively 1/4,1/4,1/4,1/4, if the error of the generation of certain algorithm is higher, can its corresponding weighted value of corresponding minimizing, be even set to 0.

Described maximal oxygen uptake algorithm can be: VO2 _max=133+6.315G-0.035W-0.3265T _1.6-0.3877Ag-0.1565H, wherein VO2 _maxfor maximal oxygen uptake; G is sex, and women is 0, and the male sex is 1; W is body weight; T _1.6for the needed time of the 1.6km that walked; Ag is the age; H is the mean value of all heart rate datas measured in walking process;

Described maximal oxygen uptake algorithm can also be: when sex is women: VO2 _max=15.26*[(206-0.88Ag)/RHR], when sex is the male sex: VO2 _max=15.26*[(206-Ag)/RHR]; VO2 wherein _maxfor maximal oxygen uptake, Ag is the age, the user's age data that utilizes memory module to store; RHR is HRrest (heartbeat number of times per minute), can pass through heart rate summation * 3 in 20 seconds and obtain.

Described maximal oxygen uptake algorithm can also be: VO2 _max=L* cadence+M* height * cadence+3.5, wherein L, M are constant, according to parallel and vertical mobile spent oxygen content difference, adjust, it is that 0.2, M is 2.4 that the present invention adopts L; The step number that the user that cadence equals to calculate in the acceleration transducer unit interval walks or runs; User's height data that height utilizes memory module to store.

Described first processor can be selected any one in above-mentioned stride algorithm, and any one in above-mentioned distance algorithm above-mentioned calorie consumes any one in algorithm, and any one in above-mentioned maximal oxygen uptake algorithm.

Described semiotic monitor has four kinds of different mode of operations, be respectively electrocardiogram acquisition pattern, conventional motor pattern, extreme sport pattern and night sleep pattern; Wherein under electrocardiogram acquisition pattern, the electrocardio sample frequency of correspondence is the highest, can realize more accurate ecg signal acquiring, but power consumption is larger, electrocardio sample frequency corresponding under all the other conventional motor patterns, extreme sport pattern and night sleep pattern is minimum, saves energy, electrocardio sample frequency is up to 1kHz, and minimum is 62.5Hz; The detection critical value of the displacement transducer under conventional motor pattern is set to medium, is convenient to gather data slight and moderate motion; The detection critical value of the displacement transducer under extreme sport pattern is set to the highest, is convenient to gather the data of intensity movements, reduces displacement transducer issuable error in intensity activity; The detection critical value of the displacement transducer under night sleep pattern is set to minimum, is convenient to capture in sleep procedure and moves etc. relative to small health, and user can arrange according to different demands the mode of operation of semiotic monitor.

After arbitrary semiotic monitor and a data synchronization unit are set up Bluetooth pairing and are connected, this semiotic monitor sends the stride of its storage, distance, speed, calorie consumption and maximal oxygen uptake data to data synchronization unit one by one, described data synchronization unit often receives the data that semiotic monitor sends and just sends acknowledge message to semiotic monitor, and semiotic monitor receives these data that sent of deleting its storage after the acknowledge message that data synchronization unit sends over, if semiotic monitor does not receive the acknowledge message that data synchronization unit sends over, semiotic monitor resends current data three times, if semiotic monitor does not receive the acknowledge message that data synchronization unit sends over yet after resending this data three times, semiotic monitor stops data transmission, to not sending successfully current data, carry out mark simultaneously, when carrying out mark, record current time, and carry out again retry after waiting for 20 minutes, after being next Bluetooth pairing successful connection, the processing resending according to the sequencing that sends the mark time of failed data.

Fig. 2 shows the circuit theory diagrams of the included temperature collect module of semiotic monitor of the present invention, and described temperature collect module comprises temperature sensor chip LMT85; Fig. 3 shows the circuit theory diagrams of the included electrocardiogram acquisition module of semiotic monitor of the present invention, and described electrocardiogram acquisition module comprises cardioelectric monitor chip AD8232, and wherein PL1, PL2 and PL3 are monitoring electrode; Fig. 4 shows the circuit theory diagrams of the included acceleration transducer of semiotic monitor of the present invention, it comprises accelerometer ADXL346 and the level transferring chip FXLP34 that is connected accelerometer ADXL346, accelerometer can detect the vibration of AC signal and object, people can produce the vibration of certain regularity when walking about, and acceleration transducer can detect the zero crossing of vibration, thereby calculate the step number that step that people walks or running are walked; Fig. 5 shows the circuit theory diagrams of the first included memory module of semiotic monitor of the present invention, and described the first memory module comprises FLASH chip N25Q128; Fig. 6 shows the circuit theory diagrams of the first included Bluetooth adapter of semiotic monitor of the present invention, and described the first Bluetooth adapter comprises bluetooth low-power chip NRF8001; Fig. 7 shows the circuit theory diagrams of the included first processor of semiotic monitor of the present invention, and described first processor comprises microprocessor chip ADUCM360; Described semiotic monitor also comprises for the power module of working power is provided to semiotic monitor, wherein Fig. 8 shows the circuit theory diagrams of described power module, described power module comprises battery CR2032 and voltage transitions chip TPS717, adopt powered battery be convenient to semiotic monitor out of doors environment wear use; Fig. 9 shows the circuit theory diagrams of the included clock module of semiotic monitor of the present invention, and described clock module comprises clock chip PCF8523; Described temperature collect module, electrocardiogram acquisition module, acceleration transducer, the first memory module, the first Bluetooth adapter and clock module are all electrically connected to described first processor.

Data monitoring device of the present invention comprises the second Bluetooth adapter, the second memory module and the second processor; Described the second Bluetooth adapter comprises bluetooth low-power chip NRF8001, and its particular circuit configurations can be identical with the first Bluetooth adapter; Described the second memory module can adopt mass storage; Described the second processor comprises microprocessor chip ADUCM360, and its particular circuit configurations can be identical with first processor; In addition, described data monitoring device can also comprise the USB interface being connected with the second processor, and the data that the second processor can be stored the second memory module by USB interface are sent to External memory equipment.

Sign monitor based on wireless synchronization technology provided by the invention, wherein sign monitoring side comprises at least one semiotic monitor, a plurality of semiotic monitors can be distributed to different users and use, the synchronous end of described data comprises at least one data synchronization unit, arbitrary semiotic monitor can be set up Bluetooth pairing with a data synchronization unit and be connected, set up after Bluetooth pairing connection, can realize semiotic monitor and data synchronization unit and immediately complete efficiently data synchronization process, be convenient to the instant storage of the data that semiotic monitor obtains and synchronous, save data accurately and conveniently, and semiotic monitor can according to gathered data in conjunction with storage user's characteristic as user's height, sex, body weight and age data, utilize stride algorithm, distance algorithm, rate algorithm, calorie consumes algorithm and maximal oxygen uptake algorithm gets stride, distance, speed, calorie consumes and maximal oxygen uptake data, the physical sign parameters getting is abundant, and closely related with user's motion state, be convenient to user and understand in real time motion state and movement effects by these data.

The above; it is only preferably embodiment of the present invention; but protection scope of the present invention is not limited to this; anyly be familiar with those skilled in the art in the technical scope that the present invention discloses; according to technical scheme of the present invention and inventive concept thereof, be equal to replacement or changed, within all should being encompassed in protection scope of the present invention.

Claims

1. the sign monitor based on wireless synchronization technology, is characterized in that comprising that sign monitoring side and data synchronously hold;

Described sign monitoring side comprises at least one semiotic monitor;

Each semiotic monitor comprises:

For gathering the electrocardiogram acquisition module of user's palmic rate;

For gathering the displacement transducer of user's change in displacement;

GPS module for detection of current height above sea level;

Clock module;

The first Bluetooth adapter;

Each data synchronization unit comprises:

The second Bluetooth adapter being connected with the first Bluetooth adapter;

Connect the second Bluetooth adapter and the second memory module, for stride, distance, speed, calorie consumption and the maximal oxygen uptake data that sign monitoring side is transmitted by the second Bluetooth adapter, be stored to the second processor of the second memory module.

2. a kind of sign monitor based on wireless synchronization technology according to claim 1, is characterized in that described semiotic monitor also comprises for gathering the baroceptor of the atmospheric value under current height above sea level; Described baroceptor is connected with first processor.

3. a kind of sign monitor based on wireless synchronization technology according to claim 1, is characterized in that described data synchronization unit also comprises the USB interface being connected with the second processor; The stride that described data synchronization unit is stored the second memory module by USB interface, distance, speed, calorie consumption and maximal oxygen uptake transfer of data are to external electronic device.

4. a kind of sign monitor based on wireless synchronization technology according to claim 1, is characterized in that described first processor is stored in stride, distance, speed, calorie consumption and maximal oxygen uptake data in the first memory module one by one according to the sequencing of data acquisition time.

5. a kind of sign monitor based on wireless synchronization technology according to claim 1, is characterized in that arbitrary semiotic monitor sets up Bluetooth pairing by the first Bluetooth adapter with the second Bluetooth adapter of arbitrary data synchronization unit and be connected.

6. a kind of sign monitor based on wireless synchronization technology according to claim 5, it is characterized in that after arbitrary semiotic monitor and a data synchronization unit are set up Bluetooth pairing and be connected, this semiotic monitor is by the stride of its storage, distance, speed, calorie consumes and maximal oxygen uptake data send data synchronization unit one by one to, described data synchronization unit often receives the data that semiotic monitor sends and just sends acknowledge message to semiotic monitor, semiotic monitor receives these data that sent of deleting its storage after the acknowledge message that data synchronization unit sends over, if semiotic monitor does not receive the acknowledge message that data synchronization unit sends over, semiotic monitor resends current data three times, if semiotic monitor does not receive the acknowledge message that data synchronization unit sends over yet after resending this data three times, semiotic monitor stops data transmission, carries out mark to not sending successfully current data simultaneously.