CN105534505A - Health management equipment, monitoring method and health monitoring system - Google Patents

Abstract

The embodiment of the invention provides health management equipment, a monitoring method and a health monitoring system and belongs to the field of medical equipment. The health management equipment comprises a main control module, a physiological signal acquisition module, a motion signal acquisition module and a communication module. The physiological signal acquisition module, the motion signal acquisition module and the communication module are all coupled to the main control module; the physiological signal acquisition module is used for sending acquired physiological parameter information to the main control module; the motion signal acquisition module is used for sending acquired motion information of a user to the main control module; the main control module is used for sending the physiological parameter information and the marked state of the physiological parameter information to a user terminal through the communication module. The wearable health management equipment and the monitoring method are reliable in performance and multifunctional, and the health monitoring system is based on the health management equipment.

Description

A kind of health management device, monitoring method and health monitoring systems

Technical field

The present invention relates to field of medical device, in particular to a kind of health management device, monitoring method and health monitoring system.

Background technology

Wearable health management device and monitoring system thereof will change " passive " monitoring pattern that in China's tele-medicine and family health care medical treatment, terminal use is traditional, and under realizing low physiology and mental workload, physiology signal obtains automatically, continuously, dynamically.Chinese scholars has done a large amount of work in this research field, but existing research does not often consider the feature that in practical application, human body physiological characteristics and kinestate are associated, only just the health condition of user is judged from physiological data, lack current movement state information, cause erroneous judgement to a certain degree.Therefore, user health situation judged result more accurately be obtained, need in health management device, current movement state information to be effectively combined with human body physiological characteristics data, to obtain performance Wearable health management device more reliably.

Summary of the invention

The object of the present invention is to provide a kind of health management device, monitoring method and health monitoring system, judge whether the physiological parameter information of user occurs exception according to the kinestate of user in real time, effectively improve the accuracy that user health situation is judged, to improve above-mentioned problem.

To achieve these goals, the technical scheme of embodiment of the present invention employing is as follows:

A kind of health management device that first embodiment of the invention provides, comprise main control module, physiological signal collection module, motor message acquisition module and communication module, described physiological signal collection module, described motor message acquisition module and described communication module are all coupled with described main control module;

Described physiological signal collection module is used for the physiological parameter information of the user collected to send to described main control module;

Described motor message acquisition module is used for the movable information of the user collected to send to described main control module;

Described main control module is used for judging whether user is kept in motion according to described movable information, if, judge whether described physiological parameter information exceeds preset range, if, be abnormal by the status indication of described physiological parameter information, the flag state of described physiological parameter information and described physiological parameter information is all sent to described communication module;

Described communication module is used for the flag state of described physiological parameter information and described physiological parameter information all to send to user terminal.

Preferably, described health management device also comprises temperature-humidity signal acquisition module, described temperature-humidity signal acquisition module is coupled with described main control module, and described temperature-humidity signal acquisition module is used for the humiture information of the environment collected to send to described main control module; Described main control module is also for sending to communication module by the described humiture information received; Described communication module is also for sending to described user terminal by the described humiture information received.

Preferably, described health management device also comprises wake module, and described wake module is coupled with described main control module, and described wake module is used for waking up after the control instruction receiving the transmission of described main control module entering dormant user.

Preferably, described main control module also for be kept in motion as user and the described physiological parameter information received does not exceed preset range time, be normal by the status indication of described physiological parameter information, the flag state of described physiological parameter information and described physiological parameter information is all sent to described communication module.

Preferably, described health management device also comprises power module and energy supply control module, the input of described energy supply control module is coupled with described power module, and the outfan of described energy supply control module is coupled with described main control module, described physiological signal collection module, described motor message acquisition module, described wake module and described communication module respectively.

A kind of monitoring method that second embodiment of the invention provides, be applied to above-mentioned health management device, described method comprises:

The physiological parameter information of the user collected is sent to main control module by physiological signal collection module, and the movable information of the user collected also is sent to described main control module by motor message acquisition module;

According to described movable information, described main control module judges whether user is kept in motion, if, judge whether described physiological parameter information exceeds preset range, if, be abnormal by the status indication of described physiological parameter information, the flag state of described physiological parameter information and described physiological parameter information is all sent to communication module;

The flag state of described physiological parameter information and described physiological parameter information is all sent to user terminal by described communication module.

Preferably, described method also comprises: the humiture information of the environment collected is sent to described main control module by temperature-humidity signal acquisition module; The described humiture information received is sent to described communication module by described main control module; The described humiture information received is sent to described user terminal by described communication module.

A kind of health monitoring systems that third embodiment of the invention provides, comprises user terminal, guardian's terminal, server and above-mentioned health management device,

Described health management device, for obtaining Monitoring Data, judges whether described Monitoring Data occurs exception, and described Monitoring Data and abnormal judged result are all sent to described user terminal;

Described user terminal is used for receiving and showing described Monitoring Data and abnormal judged result, and will occur that abnormal Monitoring Data sends to server according to described abnormal judged result;

Analysis result, for preserving and analyzing the described Monitoring Data occurring exception, is sent to described user terminal and described guardian's terminal by described server.

Preferably, described guardian's terminal is used for determining whether to notify emergency center according to described analysis result.

Preferably, when described abnormal conditions reach default hazard standard, described user terminal is also for directly notifying described emergency center.

Health management device provided by the invention is by motor message acquisition module, and such as acceleration transducer collects the movable information of user, is collected the physiological parameter information of user by physiological signal collection module such as heart rate sensor, pressure transducer etc.The kinestate that user is current is judged according to described movable information, and the preset range of user's physiological feature parameter is provided with according to the kinestate of user, can judge whether the physiological parameter data that current physiology signal acquisition module collects occurs exception respectively for the kinestate of user and non-athletic state to make this health management device, thus judge the health status of user, effectively improve the reliability of judged result.

Further, health management device provided by the invention is also provided with temperature-humidity signal acquisition module, so that user understands the temperature and humidity information of current environment.

In addition, present invention also offers the health monitoring system comprising above-mentioned health management device, achieve described health management device and the data interaction between user terminal, guardian's terminal and server, further by server, the Monitoring Data that health management device reports is analyzed, and in time analysis result is sent to user terminal and guardian's terminal, not only user can understand the health status of self in time, and the guardian of user also can understand the health status of user in time.

Other features and advantages of the present invention are set forth in description subsequently, and, partly become apparent from description, or understand by implementing the embodiment of the present invention.Object of the present invention and other advantages realize by structure specifically noted in write description, claims and accompanying drawing and obtain.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.Shown in accompanying drawing, above-mentioned and other object of the present invention, Characteristics and advantages will be more clear.Reference numeral identical in whole accompanying drawing indicates identical part.Deliberately do not draw accompanying drawing by actual size equal proportion convergent-divergent, focus on purport of the present invention is shown.

Fig. 1 shows the module frame chart of a kind of health management device that first embodiment of the invention provides;

Fig. 2 shows the method flow diagram of a kind of monitoring method that second embodiment of the invention provides;

Fig. 3 shows the method flow diagram of a kind of specific implementation method of a kind of monitoring method that second embodiment of the invention provides;

Fig. 4 shows the data interaction figure of a kind of health monitoring systems that third embodiment of the invention provides.

Detailed description of the invention

Below in conjunction with accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.The assembly of the embodiment of the present invention describing and illustrate in usual accompanying drawing herein can be arranged with various different configuration and design.Therefore, below to the detailed description of the embodiments of the invention provided in the accompanying drawings and the claimed scope of the present invention of not intended to be limiting, but selected embodiment of the present invention is only represented.Based on embodiments of the invention, the every other embodiment that those skilled in the art obtain under the prerequisite not making creative work, all belongs to the scope of protection of the invention.

It should be noted that: represent similar terms in similar label and letter accompanying drawing below, therefore, once be defined in an a certain Xiang Yi accompanying drawing, then do not need to define further it and explain in accompanying drawing subsequently.Meanwhile, in describing the invention, term " first ", " second " etc. only for distinguishing description, and can not be interpreted as instruction or hint relative importance.

First embodiment

As shown in Figure 1, embodiments provide a kind of health management device, comprising: main control module 101, physiological signal collection module 102, motor message acquisition module 103 and communication module 104.Physiological signal collection module 102, motor message acquisition module 103 and communication module 104 are all coupled with main control module 101.

In embodiments of the present invention, physiological signal collection module 102 and motor message acquisition module 103 are as this health management device 100 signals collecting end.Wherein, the physiological parameter information of output for gathering the physiological parameter information of user, and is sent to main control module 101 by physiological signal collection module 102; The movement state information of output for gathering the movement state information of user, and is sent to main control module 101 by motor message acquisition module 103.

Main control module 101 is as the control of this health management device 100 and date processing end, after the movement state information of the user of the physiological parameter information and motor message acquisition module 103 transmission that receive the user that above-mentioned physiological signal collection module 102 sends, first judge that user is current according to described movement state information and whether be kept in motion.

If user is not kept in motion, then continue to judge whether described physiological parameter information exceeds normal range, if described physiological parameter information exceeds normal range, be then abnormal by the status indication of described physiological parameter information, and the flag state of described physiological parameter information and described physiological parameter information is all sent to described communication module 104, if described physiological parameter information does not exceed normal range, be then normal by the status indication of described physiological parameter information, and the flag state of described physiological parameter information and described physiological parameter information is all sent to described communication module 104.

If user is kept in motion, then judge whether described physiological parameter information exceeds preset range, if described physiological parameter information exceeds preset range, be abnormal by the status indication of described physiological parameter information, and the flag state of described physiological parameter information and described physiological parameter information is all sent to described communication module 104, if described physiological parameter information does not exceed preset range, be then normal by the status indication of described physiological parameter information, and the flag state of described physiological parameter information and described physiological parameter information is all sent to described communication module 104.

Wherein, described normal range is arranged according to Medicine standard, and the such as normal range of adult's heart rate is generally: 60 ~ 100 beats/min, certainly, also can do concrete change according to situations such as the age of user, sex and medical histories.Described preset range can set according to the motion conditions of user, and namely current according to the user of motor message acquisition module 103 output movable information is arranged.Concrete, motor message acquisition module 103 comprises acceleration transducer, certainly, also can comprise the sensor that other may be used for gathering user movement information.When motor message acquisition module 103 comprises acceleration transducer, in the user movement information that main control module 101 can be sent by comparison acceleration transducer vertical direction data waveform crest before threshold value, interval three eigenvalues before trough between threshold value and peak valley, and combine increment svm classifier principle achieve to static, walk, the accurate identification of the action such as race.Such as, the result after SVM algorithm process is normalized rear span between 0-1, wherein, when value is between 0-0.3, main control module 101 judges that user remains static, and namely user is not kept in motion, and judges whether described physiological parameter information exceeds normal range, when value be more than or equal to 0.3 be less than 1 time, main control module 101 judges that user is in the state of walking or running, namely user is kept in motion, judge whether described physiological parameter information exceeds preset range, concrete, for heart rate, when the result after SVM algorithm process be normalized rear value be more than or equal to 0.3 be less than 0.7 time, main control module 101 judges that user is in the state of walking, now the preset range of heart rate can be set to 65 ~ 105, when the result after SVM algorithm process be normalized rear value be more than or equal to 0.6 be less than 1 time, main control module 101 judges that user is in the state of race, now the preset range of heart rate can be set to 85 ~ 116, it should be noted that, walking the value infall of line state and the state of race, namely value is more than or equal to 0.6 when being less than 0.7, state processing is on foot in user, that is within the scope of this, the preset range of heart rate is still set to 65 ~ 105.

Communication module 104 is for all sending to user terminal 200 by described physiological parameter information and abnormal conditions.Concrete, communication module 104 can be wire communication module 104, also can be wireless communication module 104.Wherein, wire communication module 104 supports wire communication mode, wireless communication module 104 support of wireless communication mode.Preferably, the communication module 104 of the health management device 100 that the embodiment of the present invention provides adopts wireless communication module 104, and due to user terminal 200 be portable terminal, therefore, described wireless communication module 104 can be the short-range wireless communication module 104 of communication distance more than 1 meter, such as, can be Zigbee module, bluetooth module, IrDA module etc.Wherein, because Zigbee module and bluetooth module have the advantages such as low-power consumption, low cost, transmission range be suitable, can preferably be applied in this health management device 100 as communication module 104.

The health management device 100 that the embodiment of the present invention provides fully takes into account the feature that in practical application, human body physiological characteristics and kinestate are associated, and the kinestate for user is provided with for judging the preset range whether current gathered physiological parameter information is abnormal.First judge the kinestate that user is current, again the current physiology parameter information that physiological signal collection module 102 collects is compared with the scope arranged under corresponding state, thus judge whether the physiological parameter information of user occurs exception, effectively improves the reliability of user health situation judged result.

It should be noted that, in the embodiment of the present invention, described health management device 100 is wearable structure, such as, can be designed as bracelet form, be convenient to user and wear.User terminal 200 is preferably a kind of portable terminal, such as smart mobile phone.When user terminal 200 is for being integrated with the smart mobile phone of bluetooth module, communication module 104 can be preferably bluetooth module.Main control module 101 can adopt single-chip microcomputer, such as, model can be adopted to be the single-chip microcomputer of C8051F310, and other have the chip of data processing function can certainly to adopt DSP, ARM or FPGA etc.

In addition, as shown in Figure 1, the health management device that the present embodiment provides also comprises temperature-humidity signal acquisition module 105, for gathering the humiture information of external environment condition.Such as, temperature-humidity signal acquisition module 105 can adopt Temperature Humidity Sensor, and model can be HIH6120-021-001S.Temperature-humidity signal acquisition module 105 is coupled with main control module 101, the humiture information collected is sent to main control module 101, described humiture information is sent to communication module 104 by main control module 101, and then described humiture information is sent to user terminal 200 by communication module 104.The humiture information of external environment condition is shown, so that user can understand the temperature and humidity information of current environment at any time by user terminal 200.

Further, due to the physiological signal that physiological signal collection module 102 gathers, such as, often along with the common mode disturbances of some low frequencies, high frequency and power frequency in electrocardiosignal, the follow-up analysis to physiological signal is affected.Therefore, the health management device 100 that the embodiment of the present invention provides also comprises filter circuit, and for filtering physiological signal, such as, low frequency in electrocardiosignal, the common mode disturbances of high frequency and power frequency, is convenient to the follow-up analysis to physiological signal.The input of described filter circuit is coupled with the outfan of physiological signal collection module 102, and the outfan of described filter circuit is coupled with main control module 101.

Further, in the embodiment of the present invention, physiological signal collection module 102 comprises heart rate sensor and pressure transducer.Now, the health management device 100 that the embodiment of the present invention provides has rhythm of the heart function and monitoring of blood pressure function.The physiological parameter information that physiological signal collection module 102 collects comprises heart rate information and the blood pressure information of user, comprises normal cardiac rate scope and normal arterial pressure scope described normal range, and described preset range also comprises default heart rate range and default blood pressure range.Certainly, physiological signal collection module 102, except comprising heart rate sensor and pressure transducer, can also comprise the sensor that other may be used for gathering user's physiological parameter, such as blood glucose sensor, body temperature trans etc.

In person in middle and old age's Patients with Cardiovascular/Cerebrovascular Diseases, it is much morbidity at night, therefore in order to avoid user can not know that the own physiological parameter information appearance that physiological signal collection module 102 collects causes more serious consequence extremely in a sleep state in time, this health management device 100 adds arousal function.As shown in Figure 1, described health management device 100 also comprises wake module 106, and wake module 106 is coupled with main control module 101, for receive main control module 101 send wake instruction up after, start working to wake user up.When main control module 101 monitor user enter sleep state time, enter sleep pattern, in a sleep mode, when main control module 101 judge received heart rate sensor collection and the heart rate information exported exceed normal cardiac rate scope and/or received pressure transducer collection and the blood pressure information exported exceeds normal arterial pressure scope time, main control module 101 is while being sent to user terminal 200 by abnormal conditions by communication module 104, transmission wakes instruction up to wake module 106, wake module 106 is driven to work, to wake user up in time, avoid causing danger.Concrete, the triggering mode of the sleep pattern of described health management device 100 can be: by arranging sleep pattern button, when user prepares in bed, presses this button, opens sleep pattern.In addition, the triggering mode of the sleep pattern of described health management device 100 can also be: the movable information that the heart rate information of the user that main control module 101 can export according to heart rate sensor and acceleration transducer export, judge whether user enters sleep state, when main control module 101 judges that user has entered sleep state, send instruction and open wake module 106, enter sleep pattern.

Wherein, wake module 106 can adopt vibrating motor, wakes user up, also can adopting speech chip, waking user up by sending the ring tone prestored, certainly, can also adopt other the device that may be used for waking up user by vibration.

In addition, as shown in Figure 1, the health management device that the embodiment of the present invention provides also comprises power module 107 and energy supply control module 108, the input of energy supply control module 108 is coupled with power module 107, and the outfan of energy supply control module 108 is coupled with main control module 101, physiological signal collection module 102, motor message acquisition module 103, temperature-humidity signal acquisition module 105, filtration module, wake module 106 and communication module 104 respectively.Power module 107 is for powering for each functional module of described health management device 100, because the driving voltage of each functional module is not quite similar, therefore the voltage exported by energy supply control module 108 pairs of power modules 107 is also needed to regulate, to meet the demand of each functional module.Preferably, described power module 107 is poly-lithium battery.The voltage of poly-lithium battery can be 3.7V, is flexible soft battery, is convenient to design for product.Energy supply control module 108 can adopt existing DC-DC power source control module 108, and the photovoltaic conversion that scalable output three-terminal voltage-stabilizing pipe also can be adopted to be exported by power module 107 is suitable voltage, for each functional module of described health management device 100 is powered.

In addition, because human body has different pulse informations, limb action at different sleep degrees, and non-Rapid eye movements sleep (NON-REM) phase and Rapid eye movements are slept, (RapidEyeMovement) may replace appearance mutually repeatedly, and this health management device 100 also has sleep state monitoring function.The movable information that the heart rate information of the user that main control module 101 can export according to heart rate sensor and acceleration transducer export, judge whether user enters sleep state, if, record each sleep state and lasting time thereof, and sleep quality data being sent to user terminal 200 by communication module 104 monitoring when user terminates sleep state, described sleep quality data comprised when the sleep state time included by sleep procedure and often kind of dormant persistent period.

In general, embodiments provide a kind of dependable performance, multi-functional Wearable health management device 100, not only fully take into account the feature that in practical application, human body physiological characteristics and kinestate are associated, effectively improve the reliability of user health situation judged result, also there is environment monitoring function, arousal function and sleep quality monitoring function.

Second embodiment

As shown in Figure 2, embodiments provide a kind of monitoring method, be applied to health management device 100, described health management device 100 comprises main control module 101, physiological signal collection module 102, motor message acquisition module 103 and communication module 104, and described method comprises:

Step S11: the physiological parameter information of the user collected is sent to main control module by physiological signal collection module, the movable information of the user collected also is sent to main control module by motor message acquisition module;

Step S12: when according to described movable information, described main control module judges that user is kept in motion, judge whether described physiological parameter information exceeds preset range;

Step S13: when described main control module judges that described physiological parameter information exceeds preset range, is abnormal by the status indication of described physiological parameter information, the flag state of described physiological parameter information and described physiological parameter information is all sent to communication module;

Step S14: the flag state of described physiological parameter information and described physiological parameter information is all sent to user terminal by described communication module.

In addition, as shown in Figure 3, the embodiment of the present invention additionally provides a kind of specific implementation method of described monitoring method, and described specific implementation method comprises:

Step S21: the physiological parameter information of the user collected is sent to main control module by physiological signal collection module, meanwhile, the movable information of the user collected also is sent to described main control module by motor message acquisition module;

Step S22: according to described movable information, described main control module judges whether user is kept in motion;

If user is not kept in motion, enter step S23, if user is kept in motion, enter step S24.

Step S23: judge whether described physiological parameter information exceeds normal range;

If described physiological parameter information exceeds normal range, enter step S25, if described physiological parameter information does not exceed normal range, enter step S26.

Step S24: judge whether described physiological parameter information exceeds preset range;

If described physiological parameter information exceeds preset range, enter step S25, if described physiological parameter information does not exceed preset range, enter step S26.

Step S25: be abnormal by the status indication of described physiological parameter information, the flag state of described physiological parameter information and described physiological parameter information is all sent to communication module;

After completing steps S25, directly enter step S27.

Step S26: be normal by the status indication of described physiological parameter information, the flag state of described physiological parameter information and described physiological parameter information is all sent to communication module;

Step S27: the flag state of described physiological parameter information and described physiological parameter information is all sent to user terminal by described communication module.

Conveniently user can check ambient temperature and the humidity condition of surrounding at present, the method for supervising that the present embodiment provides also comprises the monitoring to outside ambient temperature and humidity information, and concrete grammar comprises: the humiture information of the environment collected is sent to described main control module by temperature-humidity signal acquisition module; The described humiture information received is sent to communication module by described main control module; The described humiture information received is sent to user terminal by described communication module.

Those skilled in the art can be well understood to, and for convenience and simplicity of description, the specific works process of the method for foregoing description, with reference to the corresponding process in aforementioned means embodiment, can not repeat them here.

3rd embodiment

Present embodiments provide a kind of health monitoring systems, comprise health management device 100, user terminal 200, guardian's terminal 300 and server 400.As shown in Figure 4, be the data interaction schematic diagram of health monitoring systems provided by the invention.Monitoring Data is sent to user terminal 200 by described health management device 100, and server 400 is communicated to connect by network and one or more user terminal 200 and guardian's terminal 300, to carry out data communication or mutual.Described server 400 can be the webserver, database server etc.

Wherein, described health management device 100 is Wearable device, and during use, user wears, so that gather physiological parameter information and the movement state information of user.User terminal 200 is held for user, and for receiving and show the Monitoring Data that described health management device 100 sends, in addition, user terminal 200 is also for carrying out data interaction between server 400 and guardian's terminal 300.There is abnormal physiological parameter information for preserving and analyzing in server 400, and the analysis result obtained is sent to user terminal 200 and guardian's terminal 300.Guardian's terminal 300 is that the guardian of user holds, and according to the needs of user, guardian's terminal 300 can have multiple, and the guardian being convenient to user can know the health status of user at any time.

Concrete, described health management device 100 is for obtaining Monitoring Data, described Monitoring Data comprises physiological parameter information such as heart rate information, the blood pressure information etc. of the user collected, the movable information of user, and above-mentioned Monitoring Data is sent to user terminal 200.In addition, described Monitoring Data and abnormal judged result also for judging whether described Monitoring Data occurs exception according to the kinestate of user, and are all sent to described user terminal 200 by described health management device 100.

Described user terminal 200 is for receiving and showing described Monitoring Data and abnormal judged result, and namely user can check the physiological parameter information of self at any time and whether physiological parameter information such as heart rate, the blood pressure etc. of knowing self in time occur exception on user terminal 200.Such as, user terminal 200 is provided with default application software (APP), user only need open this application software, can check above-mentioned Monitoring Data, comprises concrete numerical value and the health status of physiological parameter information such as heart rate, blood pressure etc.Described health status is specially physiological parameter information and whether there is exception.In addition, the Monitoring Data that appearance is abnormal sends to server 400 to do further analysis by the abnormal judged result of user terminal 200 also for reporting according to described health management device 100, is that abnormal physiological parameter information sends to server 400 to do further analysis by flag state.

It should be noted that, in user terminal 200, be also provided with GPS locating module.When the Monitoring Data that described health management device 100 reports to user terminal 200 occurs abnormal, namely when the physiological feature parameter tags of user are abnormal, user terminal 200 can automatic acquisition user geographical location information now, be sent to guardian's terminal 300 together with the physiological parameter information abnormal with appearance and abnormal conditions, the analysis result sent in conjunction with server by guardian determines whether notify that emergency center goes to spot.

Analysis result for preserve and flag state described in analyzing is abnormal physiological parameter information, and is sent to described user terminal 200 and guardian's terminal 300 by server 400.Suppose that described flag state be abnormal physiological parameter information is heart rate information.Concrete, to described, server 400 occurs that abnormal heart rate information carries out analytical method and can be: be combined representing that the electrocardiosignal of heart rate information carries out extraction and the classification of characteristic signal by method and support vector machine (SVM) sorting technique of wavelet transformation, it should be noted that, the filtration module in described health management device 100 has carried out basic denoising Processing to described electrocardiosignal.Wherein, described small wave converting method preferably can adopt self adaptation multi-wavelet bases small wave converting method.Self adaptation multi-wavelet bases small wave converting method is to the characteristic signal in electrocardiosignal, namely the method that abnormal signal carries out extracting specifically comprises: first need to choose wavelet basis, electrocardiosignal to be analyzed is mated with each group of wavelet basis, the wavelet coefficient which group wavelet basis obtains is maximum and variance yields is little, just choose this group wavelet basis, such as, each wavelet-like bases can comprise: have coif system small echo, rbio system small echo, haar small echo, db system small echo, dmey system small echo, sym system small echo etc.; Again multiresolution analysis is carried out to the wavelet basis chosen, calculate the coefficient S WE value obtained, thus extract described characteristic signal.After this, in conjunction with svm classifier method, described characteristic signal is classified again, occur that abnormal heart rate information makes some predictions and diagnosis to described, then carry out comprehensive judgement according to presetting the situation such as age, sex, medical history arranged, obtain analysis result.

Certainly, flag state be abnormal physiological parameter information except heart rate information, other physiological parameter information may be also had, such as blood pressure information, in like manner, also can obtain corresponding analysis result by above-mentioned analytical method.What is more, also may there will be two kinds of physiological parameter information and there is abnormal situation simultaneously, now, server 400 is after the analysis result obtaining described two kinds of abnormal physiology parameter informations respectively, further effective integration is carried out to the analysis result of described two kinds of abnormal physiology parameter informations, so that predicted more accurately and diagnostic result.

Server 400 pairs of flag states are after abnormal physiological parameter information is analyzed, above-mentioned analysis result is sent to user side and guardian's terminal 300, so that the monitoring of user and user can check the tentative diagnosis result that server 400 pairs of abnormal conditions analyses obtain per capita, to determine whether notify emergency center.Certainly, also can be that analysis result is sent to user terminal by server, more described analysis result be sent to guardian's terminal by user terminal.In addition, default hazard standard is provided with in server 400, described default hazard standard is rescued association by Chinese medicine and is provided, when the analysis result that server 400 obtains reaches described default hazard standard, while analysis result is sent to user terminal 200 and guardian's terminal 300 by server 400, send alarm command to user terminal 200.After user terminal 200 receives alarm command, start in user terminal 200 dialing guardian's phone or dialing emergency call program of pre-setting immediately, by the mode of voice, the tentative diagnosis result of geographical location information current for user and server 400 is informed the medical personnel of guardian or emergency center.

In addition, the health monitoring systems that the present embodiment provides also has sleep monitor function.Described health management device 100 is sent to the Monitoring Data of user terminal 200, except the movable information of physiological parameter information such as heart rate information, blood pressure information etc. and user comprising user, also comprise the sleep quality data of user, described sleep quality data comprised when the sleep state time included by sleep procedure and often kind of dormant persistent period.The sleep quality data of user are sent to server 400 by user terminal 200, server 400 is evaluated described sleep quality data analysis, and analysis result is sent to user terminal 200 and guardian's terminal 300, so that the guardian of user and this user checks.When analysis show that the sleep quality of user is poor, described analysis result comprises the sleep quality evaluation of user and improves suggestion accordingly.

Further, the health monitoring systems that the present embodiment provides also has environment prompting function, described health management device 100 is sent to the Monitoring Data of user terminal 200, except comprising the physiological parameter information such as heart rate information of user, blood pressure information etc., outside the movable information of user and the sleep quality data of user, also comprise the humiture information of external environment condition, after user terminal 200 receives the humiture information of described external environment condition, can directly show on the one hand so that user knows actual temperature in environment nowadays and humidity condition, the humiture information of described external environment condition conveniently can be sent to server 400 by another, server 400 analyzes the humiture information of described external environment condition, about the suggestion keeping moisture equilibrium under clothing suitable under providing current environmental temperature and outdoor activities and this ambient humidity.

User can arrange individual physique information by user terminal 200 in advance, as sex, age, medical history, current disease state etc.Current disease state refers to whether user is current suffers from disease, such as the disease etc. of the disease of heart rate aspect, the disease for the treatment of cardiac and cerebral vascular diseases or the bad aspect of sleep quality.The individual physique information of above-mentioned user sends to server 400 to store by user terminal 200, be conducive on the one hand improving server 400 couples of users and occur the precision of analysis of abnormal physiological parameter information and comprehensive, on the other hand, the cohersive and integrated data of the physiological parameter information of this preserved user can be sent to the related doctor of specialty by server 400, and the doctor of specialty is issued to the user terminal 200 of this user according to the suggestion that described cohersive and integrated data provides.Such as, for the user suffering from heart rate aspect disease, after the heart rate information of upper one week interior this user preserved can gather by server 400, sent to the doctor of professional treatment heart rate aspect disease by the mode of mail.Meanwhile, user terminal 200 and guardian's terminal 300 all can obtain the health preserving information relevant to the current disease state of user by server 400 or by network retrieval.

It should be noted that, concrete structure and the principle of the health management device 100 described in the embodiment of the present invention please refer to the first embodiment, repeat no more herein.User terminal 200 and guardian's terminal 300 can be mobile phones, also can be the Portable movable application terminals such as panel computer, personal digital assistant (personaldigitalassistant, PDA).In this enforcement, user terminal 200 and guardian's terminal 300 are all preferably mobile phone, the application program (APP) being specifically designed to and realizing the embodiment of the present invention can be separately installed with in user terminal 200 and guardian's terminal 300, the guardian of user and user can register account number, so that on different APP synchrodata, every data of user will be kept in server 400, and user account and guardian's account are bound mutually.

In several embodiments that the application provides, should be understood that disclosed apparatus and method also can realize by another way.Device embodiment described above is only schematic, and such as, the flow chart in accompanying drawing and block diagram show device according to multiple embodiment of the present invention, the architectural framework in the cards of method and computer program product, function and operation.In this, each square frame in flow chart or block diagram can represent a part for module, program segment or a code, and a part for described module, program segment or code comprises one or more executable instruction for realizing the logic function specified.Also it should be noted that at some as in the implementation of replacing, the function marked in square frame also can be different from occurring in sequence of marking in accompanying drawing.Such as, in fact two continuous print square frames can perform substantially concurrently, and they also can perform by contrary order sometimes, and this determines according to involved function.Also it should be noted that, the combination of the square frame in each square frame in block diagram and/or flow chart and block diagram and/or flow chart, can realize by the special hardware based system of the function put rules into practice or action, or can realize with the combination of specialized hardware and computer instruction.

In addition, each functional module in each embodiment of the present invention can integrate formation one independently part, also can be modules individualism, also can form an independently part by two or more module integrations.Another point, shown or discussed coupling each other or direct-coupling or communication connection can be INDIRECT COUPLING by some communication interfaces, device or unit or communication connection, can be electrical, machinery or other form.

If described function using the form of software function module realize and as independently production marketing or use time, can be stored in a computer read/write memory medium.Based on such understanding, the part of the part that technical scheme of the present invention contributes to prior art in essence in other words or this technical scheme can embody with the form of software product, this computer software product is stored in a storage medium, comprising some instructions in order to make a computer equipment (can be personal computer, server, or the network equipment etc.) perform all or part of step of method described in each embodiment of the present invention.And aforesaid storage medium comprises: USB flash disk, portable hard drive, read only memory (ROM, Read-OnlyMemory), random access memory (RAM, RandomAccessMemory), magnetic disc or CD etc. various can be program code stored medium.It should be noted that, in this article, the such as relational terms of first and second grades and so on is only used for an entity or operation to separate with another entity or operating space, and not necessarily requires or imply the relation that there is any this reality between these entities or operation or sequentially.And, term " comprises ", " comprising " or its any other variant are intended to contain comprising of nonexcludability, thus make to comprise the process of a series of key element, method, article or equipment and not only comprise those key elements, but also comprise other key elements clearly do not listed, or also comprise by the intrinsic key element of this process, method, article or equipment.When not more restrictions, the key element limited by statement " comprising ... ", and be not precluded within process, method, article or the equipment comprising described key element and also there is other identical element.

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.Within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.It should be noted that: represent similar terms in similar label and letter accompanying drawing below, therefore, once be defined in an a certain Xiang Yi accompanying drawing, then do not need to define further it and explain in accompanying drawing subsequently.

The above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, is anyly familiar with those skilled in the art in the technical scope that the present invention discloses; change can be expected easily or replace, all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should described be as the criterion with the protection domain of claim.

Claims (10)

1. a health management device, it is characterized in that, comprise: main control module, physiological signal collection module, motor message acquisition module and communication module, described physiological signal collection module, described motor message acquisition module and described communication module are all coupled with described main control module;

Described physiological signal collection module is used for the physiological parameter information of the user collected to send to described main control module;

Described motor message acquisition module is used for the movable information of the user collected to send to described main control module;

Described main control module is used for judging whether user is kept in motion according to described movable information, if, judge whether described physiological parameter information exceeds preset range, if, be abnormal by the status indication of described physiological parameter information, the flag state of described physiological parameter information and described physiological parameter information is all sent to described communication module;

Described communication module is used for the flag state of described physiological parameter information and described physiological parameter information all to send to user terminal.

2. health management device according to claim 1, is characterized in that, also comprises temperature-humidity signal acquisition module, and described temperature-humidity signal acquisition module is coupled with described main control module;

Described temperature-humidity signal acquisition module is used for the humiture information of the environment collected to send to described main control module;

Described main control module is also for sending to communication module by the described humiture information received;

Described communication module is also for sending to described user terminal by the described humiture information received.

3. health management device according to claim 1 and 2, is characterized in that, also comprises wake module, and described wake module is coupled with described main control module;

Described wake module is used for waking up after the control instruction receiving the transmission of described main control module entering dormant user.

4. health management device according to claim 3, it is characterized in that, described main control module also for be kept in motion as user and the described physiological parameter information received does not exceed preset range time, be normal by the status indication of described physiological parameter information, the flag state of described physiological parameter information and described physiological parameter information is all sent to described communication module.

5. health management device according to claim 4, it is characterized in that, also comprise power module and energy supply control module, the input of described energy supply control module is coupled with described power module, and the outfan of described energy supply control module is coupled with described main control module, described physiological signal collection module, described motor message acquisition module, described wake module and described communication module respectively.

6. a monitoring method, is applied to the health management device according to any one of claim 1-5, it is characterized in that, described method comprises:

The physiological parameter information of the user collected is sent to main control module by physiological signal collection module, and the movable information of the user collected also is sent to described main control module by motor message acquisition module;

According to described movable information, described main control module judges whether user is kept in motion, if, judge whether described physiological parameter information exceeds preset range, if, be abnormal by the status indication of described physiological parameter information, the flag state of described physiological parameter information and described physiological parameter information is all sent to communication module;

The flag state of described physiological parameter information and described physiological parameter information is all sent to user terminal by described communication module.

7. monitoring method according to claim 6, is characterized in that, described method also comprises:

The humiture information of the environment collected is sent to described main control module by temperature-humidity signal acquisition module;

The described humiture information received is sent to described communication module by described main control module;

The described humiture information received is sent to described user terminal by described communication module.

8. a health monitoring systems, is characterized in that, comprises user terminal, guardian's terminal, server and the health management device according to any one of claim 1-5,

Described health management device, for obtaining Monitoring Data, judges whether described Monitoring Data occurs exception, and described Monitoring Data and abnormal judged result are all sent to described user terminal;

Described user terminal is used for receiving and showing described Monitoring Data and abnormal judged result, and will occur that abnormal Monitoring Data sends to server according to described abnormal judged result;

Analysis result, for preserving and analyzing the described Monitoring Data occurring exception, is sent to described user terminal and described guardian's terminal by described server.

9. health monitoring systems according to claim 8, is characterized in that, described guardian's terminal is used for determining whether to notify emergency center according to described analysis result.

10. health monitoring systems according to claim 9, is characterized in that, when described abnormal conditions reach default hazard standard, described user terminal is also for directly notifying described emergency center.