CN106725456A - The monitoring method and device of physiological data - Google Patents

Abstract

The present invention is applied to monitoring technical field, there is provided the monitoring method and device of physiological data, detects the physiology monitoring type of user input；The corresponding first sensor group of the physiology monitoring type is activated in the sensor positioned at user's brain area, and the corresponding second sensor group of the physiology monitoring type is activated in the sensor positioned at user chest area, wherein, the first sensor group includes fabric electrode for encephalograms, and the first sensor group includes fabric electrocardioelectrode；Multi-channal physiological is collected by the first sensor group and the second sensor group；The multi-channal physiological is imported into the corresponding physiological data analysis model of the physiology monitoring type, monitoring result is obtained.Monitoring process of the invention is simply easily realized, and can simultaneously meet all kinds of different physiology monitoring demands, and the difficulty of physiology monitoring is reduced to a certain extent.

Description

The monitoring method and device of physiological data

Technical field

The invention belongs to monitoring technical field, more particularly to physiological data monitoring method and device.

Background technology

With the development of science and technology and quality of life raising, the mankind also increasingly pay attention to health problem, increasingly Many physiological monitoring equipments are put into and use, and are monitored for the physiological data to user, so as to be the health status of user The data source that offer is referred to.By taking sleep analysis as an example, prior art is recorded and analyzed by sleep analysis monitor (PSG) Multinomial sleep physiology index of the user in full night sleep procedure, to get monitoring result, so as to be sleep-disorder, sleep The diagnosis of disordered breathing and sleep apnea, low hypopnea syndrome etc. provides the Monitoring Data for referring to.

At this stage, inventor has found that physiological monitoring equipment has following technological deficiency in R＆D process：Physiology monitoring sets The standby medical equipment for being specialty, bulky, operation requires height, and different physiology monitoring types is needed by different doctors Realized with equipment, cause monitoring process complicated, there is certain monitoring difficulty.

The content of the invention

In view of this, the monitoring method and device of physiological data are the embodiment of the invention provides, to solve at present to physiology The problem of the monitoring process complexity that data are monitored.

In a first aspect, the embodiment of the invention provides a kind of monitoring method of physiological data, methods described includes：

Detect the physiology monitoring type of user input；

The corresponding first sensor group of the physiology monitoring type is activated in the sensor positioned at user's brain area, and The corresponding second sensor group of the physiology monitoring type is activated in the sensor positioned at user chest area, wherein, it is described First sensor group includes fabric electrode for encephalograms, and the first sensor group includes fabric electrocardioelectrode；

Multi-channal physiological is collected by the first sensor group and the second sensor group；

The multi-channal physiological is imported into the corresponding physiological data analysis model of the physiology monitoring type, is monitored As a result.

Second aspect, the embodiment of the invention provides a kind of monitoring device of physiological data, and described device includes：

Detection unit, the physiology monitoring type for detecting user input；

Activation unit, for activating the physiology monitoring type corresponding the in the sensor positioned at user's brain area One sensor group, and the corresponding second sensor of the physiology monitoring type is activated in the sensor positioned at user chest area Group, wherein, the first sensor group includes fabric electrode for encephalograms, and the first sensor group includes fabric electrocardio electricity Pole；

Collecting unit, believes for collecting multichannel physiology by the first sensor group and the second sensor group Number；

Output unit, for the multi-channal physiological to be imported into the corresponding physiological data analysis of the physiology monitoring type Model, obtains monitoring result.

In the embodiment of the present invention, all kinds of physiological signal sensors are integrated with wearable physiology signal acquisition device, can Physiological signal is acquired with activating some sensors therein according to the actual physiology monitoring demand of user, and in this base The physiological data analysis model matched with demand is called to carry out further data analysis on plinth, to obtain corresponding monitoring As a result, the monitoring process is simply easily realized, and can simultaneously meet all kinds of different physiology monitoring demands, to a certain extent Reduce the difficulty of physiology monitoring.

Brief description of the drawings

Technical scheme in order to illustrate more clearly the embodiments of the present invention, below will be to embodiment or description of the prior art Needed for the accompanying drawing to be used be briefly described, it should be apparent that, drawings in the following description are only more of the invention Embodiment, for those of ordinary skill in the art, without having to pay creative labor, can also be according to these Accompanying drawing obtains other accompanying drawings.

Fig. 1 is that the monitoring method of physiological data provided in an embodiment of the present invention realizes flow chart；

Fig. 2 is that the monitoring method of the physiological data that another embodiment of the present invention is provided realizes flow chart；

Fig. 3 is that the monitoring method of the physiological data that another embodiment of the present invention is provided realizes flow chart；

Fig. 4 is that the monitoring method of the physiological data that another embodiment of the present invention is provided realizes flow chart；

Fig. 5 is the structured flowchart of the monitoring device of physiological data provided in an embodiment of the present invention.

Specific embodiment

In below describing, in order to illustrate rather than in order to limit, it is proposed that the such as tool of particular system structure, technology etc Body details, thoroughly to understand the embodiment of the present invention.However, it will be clear to one skilled in the art that specific without these The present invention can also be realized in the other embodiments of details.In other situations, omit to well-known system, device, electricity Road and the detailed description of method, in case unnecessary details hinders description of the invention.

What Fig. 1 showed the monitoring method of physiological data provided in an embodiment of the present invention realizes flow, and details are as follows：

In S101, the physiology monitoring type of user input is detected.

In embodiments of the present invention, the physiology monitoring, refers to the class or multiclass physiology to user within certain time period Signal is acquired, and physiological signal to collecting carries out data analysis, exist corresponding to specific physiology monitoring demand with being drawn The process of the monitoring result in the time period, wherein, the different physiology monitoring type of different physiology monitoring demand correspondences, example Such as, physiology monitoring type can include following several classes：Sleep monitor, fatigue strength monitoring, Disease Warning Mechanism monitoring and mood monitoring, etc. Deng.User can specify physiology monitoring type by choosing the modes such as physiology monitoring type option, input instruction, in S101 In, the physiology monitoring type to user input is detected, the physiology monitoring type is true according to its physiology monitoring demand by user It is fixed.

In S102, the physiology monitoring type corresponding first is activated in the sensor positioned at user's brain area and is passed Sensor group, and the corresponding second sensor group of the physiology monitoring type is activated in the sensor positioned at user chest area, Wherein, the first sensor group includes fabric electrode for encephalograms, and the first sensor group includes fabric electrocardioelectrode.

After physiology monitoring type is determined, according to corresponding physiology monitoring demand, while in the brain area of user Some sensors are activated with chest area, for carrying out physiological signal collection.It is required to call for different physiology monitoring types Sensor be it is different, in embodiments of the present invention, for gather physiological signal at least include be located at user's brain area Electrode for encephalograms and the electrocardioelectrode positioned at user chest area, i.e. at least being combined into EEG signals and electrocardiosignal Basis completes physiology monitoring.Meanwhile, the electrode for encephalograms and electrocardioelectrode realize that physiology is believed by the way of textile electrode Number collection, the wearable property of physiology signal acquisition device is realized with the flexible material by textile electrode.Exemplarily, can be with By the product form of brain electricity cap come integrated some sensors positioned at user's brain area, can be by the product shape of electrocardio clothing State carrys out integrated some sensors positioned at user chest area.

In S103, multi-channal physiological is collected by the first sensor group and the second sensor group.

After the activation of above-mentioned first sensor group and second sensor group is completed, the two biographies are begun through immediately Sensor in sensor group carries out physiological signal collection.

In S104, the multi-channal physiological is imported into the corresponding physiological data analysis mould of the physiology monitoring type Type, obtains monitoring result.

In embodiments of the present invention, when the physiological signal to collecting carries out data processing, different physiology monitoring classes Type corresponds to different physiological data analysis models respectively, therefore, after physiology monitoring type is determined, corresponding physiological data Analysis model can also determine, the physiological data analysis model is called by corresponding function interface, and will collect Multi-channal physiological imports the physiological data analysis model, so as to obtain the monitoring result corresponding to the physiology monitoring type. During concrete implementation, before the multi-channal physiological importing physiological data analysis model that will be collected carries out data processing, The pretreatment such as denoising, amplification can be carried out to the multi-channal physiological for collecting, to cause the signal characteristic in physiological signal Preferably can be embodied as out in data processing, to obtain more accurate monitoring result.

As one embodiment of the present of invention, adopting for physiological signal can be only completed by physiology signal acquisition device Collection, the data analysis of physiological signal is completed by mobile terminal.Specifically, in this embodiment, S104 is by as shown in Figure 2 S105 realize：

S105, the multi-channal physiological is sent to mobile terminal, so that the mobile terminal is by the multichannel physiology Signal imports the corresponding physiological data analysis model of the physiology monitoring type, obtains monitoring result.

In embodiments of the present invention, physiology signal acquisition device can be by bluetooth, wifi or 2.4GHz wireless technologys etc. Short haul connection mode sets up communication connection with mobile terminal, it is also possible to built by the modes such as mobile telephone network and mobile terminal Vertical communication connection.The mobile terminal, including but not limited to smart mobile phone, flat board, vehicle-mounted computer etc. possess intelligent operating system , mobile portable terminal device, such terminal device possesses computing capability higher, can be more efficiently and accurately Complete data analysis to physiological signal, meanwhile, the portability that such terminal device possesses can well with it is wearable Physiology signal acquisition device is engaged so that whole physiology monitoring process is not limited by time place, possesses ease for use.

Further, will be many in S105 when physiology monitoring type is sleep monitor on the basis of foregoing embodiments Road physiological signal is sent to mobile terminal and can be realized by S106 as shown in Figure 3：

S106, when outside system time is in default sleep period, the multi-channal physiological is sent to shifting Dynamic terminal.

In embodiments of the present invention, a sleep period can be pre-set according to user's custom, acquiescence is when physiology letter The system time of number collecting device is in when within the default sleep period, and user is in inactive sleep state, that In this case, the mobile terminal that user is used is also in resting state mostly, or not in physiological signal collection dress Put within the scope of can communicating, even and now obtained monitoring result, also allow the actual meaning that user knows immediately Justice, therefore, the physiological signal collected within the time period is first stored temporarily in the built-in storage of physiology signal acquisition device In chip, after treating the sleep period, then set up with mobile terminal and communicated to connect, and after successful connection, will be The physiological signal collected in the sleep period is sent to mobile terminal and carries out data analysis in the lump, with the sleep period The interior success rate for reducing the power consumption of physiology signal acquisition device and mobile terminal, and can further improving data transmission.

Embodiment corresponding relative to Fig. 2 of the present invention, as another embodiment of the present invention, it is also possible to adopted by physiological signal Acquisition means complete the collection and data analysis of physiological signal, so, between physiology signal acquisition device and mobile terminal The transmission of completion monitoring result is only needed, is reduced to a certain extent logical between physiology signal acquisition device and mobile terminal Letter data amount, the program possesses under the application scenarios of certain Data Management Analysis ability suitable for physiology signal acquisition device.

On the basis of the corresponding embodiments of Fig. 1, as one embodiment of the present of invention, monitoring result is being got Afterwards, as shown in figure 4, methods described also includes：

S107, judges whether the monitoring result has reached advanced warning grade.

S108, if the monitoring result has reached advanced warning grade, generates early warning information.

S109, the early warning information is sent to mobile terminal.

I.e., in embodiments of the present invention, all kinds of physiology monitoring classes are prefixed in the storage chip of physiology signal acquisition device Advanced warning grade corresponding to type, physiology signal acquisition device is supervised except carrying out data analysis to the physiological signal for collecting Result is surveyed, monitoring result can also be compared with the advanced warning grade of corresponding physiology monitoring type, to judge the monitoring result Whether advanced warning grade is reached, if having reached advanced warning grade, can also generate the early warning information of correlation, such as on the advanced warning grade Situation explanation, Improving advice etc., and the early warning information is sent to mobile terminal, so that obtain user can be by mobile terminal Its current physiology monitoring situation and the dangerous consequences that may occur are recognized in time.

In the embodiment of the present invention, all kinds of physiological signal sensors are integrated with wearable physiology signal acquisition device, can Physiological signal is acquired with activating some sensors therein according to the actual physiology monitoring demand of user, and in this base The physiological data analysis model matched with demand is called to carry out further data analysis on plinth, to obtain corresponding monitoring As a result, the monitoring process is simply easily realized, and can simultaneously meet all kinds of different physiology monitoring demands, to a certain extent Reduce the difficulty of physiology monitoring.

Further, the realization next to this programme under sleep monitor scene is described in detail：

When the actual physiology monitoring demand of user is sleep monitor, compared to existing wearable sleep monitoring device only The situation of the physiological signals such as heart rate, electrocardio, breathing can be gathered, in this programme, on the one hand can be to the electrocardiosignal of user and brain Electric signal is acquired, and on the other hand, can also move signal, electromyographic signal, temperature, blood oxygen, mouth and nose air-flow, snore to the eye of user The physiological signals such as sound, position are also carried out collection, and sleep monitor is carried out to user in all directions with reference to above-mentioned physiological signal.Cause This, when the physiology monitoring type that user input is detected in S101 is sleep monitor, S102 is realized especially by following manner：

The first sensor group is activated in the sensor positioned at user's brain area, in the first sensor group also At least include following any type sensor：Temperature sensor, blood oxygen transducer, body position sensor, mouth and nose pneumatic sensor and Sound transducer；

The second sensor group is activated in the sensor positioned at user chest area, in the second sensor group also At least include following any type sensor：Leg moves sensor.

Wherein, electrode for encephalograms can be used for gathering the dynamic signal of EEG signals, electromyographic signal and eye of user, temperature sensor Body temperature for gathering user, blood oxygen transducer is used to gather the blood oxygen saturation of user, body position sensor for detecting user Position, mouth and nose pneumatic sensor is used to detect the breathing of user that sound transducer to be used to detect the sound of snoring of user, electrocardioelectrode For gathering the electrocardiosignal of user, heart rate and detecting that chest and abdomen are breathed, the dynamic sensor of leg is used to detecting the leg of user emotionally condition.Base In the above-mentioned various physiological signals for collecting, these signals are imported into the physiological data analysis mould for carrying out sleep analysis Type, data analysis is completed in the calculating process of the model based on the approximate entropy algorithm in sleep monitor field, so as to obtain phase The sleep monitor result answered.

Corresponding to the monitoring method of the physiological data described in foregoing embodiments, Fig. 5 shows provided in an embodiment of the present invention The structured flowchart of the monitoring device of physiological data, for convenience of description, illustrate only part related to the present embodiment.

Reference picture 5, the device includes：

Detection unit 51, detects the physiology monitoring type of user input；

Activation unit 52, activates the physiology monitoring type corresponding first in the sensor positioned at user's brain area Sensor group, and the corresponding second sensor of the physiology monitoring type is activated in the sensor positioned at user chest area Group, wherein, the first sensor group includes fabric electrode for encephalograms, and the first sensor group includes fabric electrocardio electricity Pole；

Collecting unit 53, collects multichannel physiology and believes by the first sensor group and the second sensor group Number；

Output unit 54, the corresponding physiological data analysis mould of the physiology monitoring type is imported by the multi-channal physiological Type, obtains monitoring result.

Alternatively, the output unit 54 specifically for：

The multi-channal physiological is sent to mobile terminal, so that the mobile terminal leads the multi-channal physiological Enter the corresponding physiological data analysis model of the physiology monitoring type, obtain monitoring result.

Alternatively, the physiology monitoring type include sleep monitor, the output unit 54 specifically for：

When outside system time is in default sleep period, the multi-channal physiological is sent to movement eventually End.

Alternatively, described device also includes：

Judging unit, judges whether the monitoring result has reached advanced warning grade；

Generation unit, if the monitoring result has reached advanced warning grade, generates early warning information；

Transmitting element, the early warning information is sent to mobile terminal.

Alternatively, the physiology monitoring type includes sleep monitor,

The activation unit 52 includes：

First activation subelement, activates the first sensor group in the sensor positioned at user's brain area, described Also at least include following any type sensor in first sensor group：Temperature sensor, blood oxygen transducer, body position sensor, Mouth and nose pneumatic sensor and sound transducer；

Second activation subelement, activates the second sensor group in the sensor positioned at user chest area, described Also at least include following any type sensor in second sensor group：Leg moves sensor.

It is apparent to those skilled in the art that, for convenience of description and succinctly, only with above-mentioned each work( The division of energy unit is carried out for example, in practical application, as needed can distribute by different functions above-mentioned functions Unit is completed, will the internal structure of device be divided into different functional unit or modules, with complete it is described above whole or Person's partial function.Each functional unit in embodiment can be integrated in a processing unit, or unit is independent It is physically present, it is also possible to which two or more units are integrated in a unit, above-mentioned integrated unit both can be using hard The form of part is realized, it would however also be possible to employ the form of SFU software functional unit is realized.In addition, the specific name of each functional unit is also For the ease of mutually differentiation, the protection domain of the application is not limited to.The specific work process of unit in said apparatus, can With reference to the corresponding process in aforementioned means embodiment, will not be repeated here.

Those of ordinary skill in the art are it is to be appreciated that the list of each example described with reference to the embodiments described herein Unit and algorithm steps, can be realized with the combination of electronic hardware or computer software and electronic hardware.These functions are actually Performed with hardware or software mode, depending on the application-specific and design constraint of technical scheme.Professional and technical personnel Described function, but this realization can be realized it is not considered that exceeding using different device to each specific application The scope of the present invention.

In embodiment provided by the present invention, it should be understood that disclosed device and device, can be by other Mode is realized.For example, device embodiment described above is only schematical, for example, the division of module or unit, only It is a kind of division of logic function, there can be other dividing mode when actually realizing, such as multiple units or component can be combined Or another system is desirably integrated into, or some features can be ignored, or do not perform.Another, shown or discussed phase Coupling or direct-coupling or communication connection between mutually can be by some interfaces, the INDIRECT COUPLING or communication of device or unit Connection, can be electrical, mechanical or other forms.

The unit illustrated as separating component can be or may not be physically separate, be shown as unit Part can be or may not be physical location, you can with positioned at a place, or can also be distributed to multiple networks On unit.Some or all of unit therein can be according to the actual needs selected to realize the purpose of this embodiment scheme.

In addition, during each functional unit in each embodiment of the invention can be integrated in a processing unit, it is also possible to It is that unit is individually physically present, it is also possible to which two or more units are integrated in a unit.Above-mentioned integrated list Unit can both be realized in the form of hardware, it would however also be possible to employ the form of SFU software functional unit is realized.

If integrated unit, can to realize in the form of SFU software functional unit and as independent production marketing or when using To store in a computer read/write memory medium.Based on such understanding, the technical scheme essence of the embodiment of the present invention On all or part of the part that is contributed to prior art in other words or the technical scheme can be with the shape of software product Formula is embodied, and the computer software product is stored in a storage medium, including some instructions are used to so that a calculating Machine equipment (can be personal computer, server, or network equipment etc.) or the computing device embodiment of the present invention each reality Apply all or part of step of a device.And foregoing storage medium includes：USB flash disk, mobile hard disk, read-only storage, deposit at random Access to memory, magnetic disc or CD etc. are various can be with the medium of store program codes.

The above embodiments are merely illustrative of the technical solutions of the present invention, rather than its limitations；Although with reference to the foregoing embodiments The present invention has been described in detail, it will be understood by those within the art that：It still can be to foregoing each implementation Technical scheme described in example is modified, or carries out equivalent to which part technical characteristic；And these modification or Replace, do not make the spirit and scope of essence disengaging each embodiment technical scheme of the embodiment of the present invention of appropriate technical solution.

These are only presently preferred embodiments of the present invention, be not intended to limit the invention, it is all it is of the invention spirit and Any modification, equivalent and improvement for being made within principle etc., should be included within the scope of the present invention.

Claims (10)

1. a kind of monitoring method of physiological data, it is characterised in that methods described includes：

Detect the physiology monitoring type of user input；

The corresponding first sensor group of the physiology monitoring type is activated in the sensor positioned at user's brain area, and in place The corresponding second sensor group of the physiology monitoring type is activated in the sensor of user chest area, wherein, described first Sensor group includes fabric electrode for encephalograms, and the first sensor group includes fabric electrocardioelectrode；

Multi-channal physiological is collected by the first sensor group and the second sensor group；

The multi-channal physiological is imported into the corresponding physiological data analysis model of the physiology monitoring type, monitoring knot is obtained Really.

2. the method for claim 1, it is characterised in that described that the multi-channal physiological is imported into the physiology monitoring The corresponding physiological data analysis model of type, obtaining monitoring result includes：

The multi-channal physiological is sent to mobile terminal, so that the multi-channal physiological is imported institute by the mobile terminal The corresponding physiological data analysis model of physiology monitoring type is stated, monitoring result is obtained.

3. method as claimed in claim 2, it is characterised in that the physiology monitoring type includes sleep monitor, described by institute Stating multi-channal physiological and sending to mobile terminal includes：

When outside system time is in default sleep period, the multi-channal physiological is sent to mobile terminal.

4. the method for claim 1, it is characterised in that methods described also includes：

Judge whether the monitoring result has reached advanced warning grade；

If the monitoring result has reached advanced warning grade, early warning information is generated；

The early warning information is sent to mobile terminal.

5. the method as described in any one of Claims 1-4, it is characterised in that the physiology monitoring type includes sleep monitor,

The corresponding first sensor group of the physiology monitoring type is activated in the sensor positioned at user's brain area, and The corresponding second sensor group of the physiology monitoring type is activated in the sensor positioned at user chest area, including：

The first sensor group is activated in the sensor positioned at user's brain area, in the first sensor group also at least Including following any type sensor：Temperature sensor, blood oxygen transducer, body position sensor, mouth and nose pneumatic sensor and sound Sensor；

The second sensor group is activated in the sensor positioned at user chest area, in the second sensor group also at least Including following any type sensor：Leg moves sensor.

6. a kind of monitoring device of physiological data, it is characterised in that described device includes：

Detection unit, the physiology monitoring type for detecting user input；

Activation unit, passes for activating the physiology monitoring type corresponding first in the sensor positioned at user's brain area Sensor group, and the corresponding second sensor group of the physiology monitoring type is activated in the sensor positioned at user chest area, Wherein, the first sensor group includes fabric electrode for encephalograms, and the first sensor group includes fabric electrocardioelectrode；

Collecting unit, for collecting multi-channal physiological by the first sensor group and the second sensor group；

Output unit, for the multi-channal physiological to be imported into the corresponding physiological data analysis mould of the physiology monitoring type Type, obtains monitoring result.

7. device as claimed in claim 6, it is characterised in that the output unit specifically for：

The multi-channal physiological is sent to mobile terminal, so that the multi-channal physiological is imported institute by the mobile terminal The corresponding physiological data analysis model of physiology monitoring type is stated, monitoring result is obtained.

8. device as claimed in claim 7, it is characterised in that the physiology monitoring type includes sleep monitor, the output Unit specifically for：

When outside system time is in default sleep period, the multi-channal physiological is sent to mobile terminal.

9. device as claimed in claim 6, it is characterised in that described device also includes：

Judging unit, for judging whether the monitoring result has reached advanced warning grade；

Generation unit, if having reached advanced warning grade for the monitoring result, generates early warning information；

Transmitting element, for sending the early warning information to mobile terminal.

10. the device as described in any one of claim 6 to 9, it is characterised in that the physiology monitoring type includes that sleep is supervised Survey,

The activation unit includes：

First activation subelement, it is described for activating the first sensor group in the sensor positioned at user's brain area Also at least include following any type sensor in first sensor group：Temperature sensor, blood oxygen transducer, body position sensor, Mouth and nose pneumatic sensor and sound transducer；

Second activation subelement, it is described for activating the second sensor group in the sensor positioned at user chest area Also at least include following any type sensor in second sensor group：Leg moves sensor.