CN107374615A - A kind of electrocardio, breathing, the sleep-walking reporting system and method for position monitoring - Google Patents

Abstract

The invention discloses the sleep-walking reporting system that a kind of electrocardio, breathing, position monitor, and it includes physiologic information and picks up transmitter, mobile terminal, high in the clouds and PC terminals；Electrocardiosignal, respiratory waveform signal and the position active signal of transmitter collection user is picked up by physiologic information；Analysis identification is carried out to the electrocardiosignal under user's waking state, respiratory waveform signal and position active signal in mobile terminal, the sleep state identification model of its electrocardiosignal, respiratory waveform signal and position active signal is built, judges whether user is in sleep-walking state by the sleep state identification model；The invention also discloses the method that the monitoring of a kind of electrocardio, breathing, position is dreamed of simultaneously.

Description

A kind of electrocardio, breathing, the sleep-walking reporting system and method for position monitoring

Technical field

The invention belongs to physiological monitoring device technical field, and specifically, the present invention relates to a kind of electrocardio, breathing, position The sleep-walking reporting system and method for monitoring.

Background technology

Sleep-walking is the behavior of leaving the bed do not known in sleep, and generally, sleepwalker can also be returned on bed.Dream of is in neurology A kind of sleep-disorder, symptom are generally walked about under postdormitum in shelter, but some patients can leave shelter or make one A little dangerous movements.Some somnambules can suddenly get up and say something recklessly after sleeping soundly from the bed in spite of oneself；Very To getting dressed without any confusion, meal is burnt；Or after going to the circle of outside pocket one, return to sleep in bed again, until next day wakes up But to have no impression to nocturnal thing.Sleepwalker's eyes open, and allow people to be mistaken for clear-headed, and can answer Simple problem or order./ 3rd sleepwalker's behavior has aggressiveness, and cannot remember for oneself after waking up once left the bed.Most of dream Swim a few minutes time to one hour.How a people is judged whether in sleep-walking, and when the third party learns sleep-walking Person is in sleep-walking, how about deprotects sleepwalker；This needs corresponding monitoring device and is monitored and can just be done safely In advance.Therefore, how to monitor then turns into the task of top priority.

The method for being used to monitor sleep-walking in the prior art has a lot, if the applying date is December 18, Application No. in 2014 The Chinese patent document of the 201410786621.7th, entitled " a kind of cloth patch with sleep-walking detection prompting function ", the China are special Sharp file belongs to service for life technical field, specifically provides a kind of cloth patch with sleep-walking detection prompting function, has and pass through Judge whether user dreams of and can shake in sleep-walking with parameters such as displacement, acceleration in automatic detection user's sleep procedure to call out Awake function, by displacement transducer, processor, electromagnetic shaker, acceleration transducer, battery, Bluetooth transmission module, cloth patch, bluetooth Receiving module, upper computer software, mobile phone are formed.When sleep can not accurately be recognized in real time in daily life by solving user Symptom that whether appearance is dreamed of and the problem of can not prevent in time.The Chinese patent document has accuracy, the spy of real-time Point.Although the Chinese patent document can obtain the letter that user is in activity by displacement transducer and acceleration transducer Breath, but can not simultaneously learn whether user is in sleep state, under normal circumstances, when only user is in sleep state Activity just for dream of.

The content of the invention

It is an object of the invention to provide the sleep-walking reporting system and method that a kind of electrocardio, breathing, position monitor, with least Solving sleep-walking monitoring device present in prior art can not obtain whether user is in dormant technical problem.

In order to solve the above problems, the present invention provides a kind of electrocardio, breathing, the sleep-walking reporting system of position monitoring and side Method, its technical scheme are as follows：

A kind of electrocardio, breathing, the sleep-walking reporting system of position monitoring, it includes physiologic information and picks up transmitter, posts On the body of user, for gathering and sending the electrocardiosignal, respiratory waveform signal and position active signal of user；It is mobile whole End, receiving module, data processing module are provided with the mobile terminal, uploads cloud module；The receiving module and the life Reason information is picked up transmitter and is wirelessly connected, and the electrocardio letter for the user that transmitter is sent is picked up for receiving the physiologic information Number, respiratory waveform signal and position active signal；The data processing module is connected with the receiving module, the data processing Signal value when module judges user's electrocardiosignal, respiratory waveform signal is in sleep for user, and the user received When position active signal is that user is in signal value when awakening, then show that user is in sleep-walking state；The upload cloud Module is connected with the data processing module, and the information for user to be in sleep-walking state is uploaded to high in the clouds；With PC terminals, The PC terminals realize wireless connection with the high in the clouds, and the user for obtaining the high in the clouds is in the information of sleep-walking state, To realize monitoring and report that sleep-walking state is in user.

Electrocardio, breathing, the sleep-walking reporting system of position monitoring described above, more preferably：The physiologic information is picked up Vertical direction of the transmitter along human body axis is picked up, is posted in the manubrium position of front.

Electrocardio, breathing, the sleep-walking reporting system of position monitoring described above, more preferably：The physiologic information is picked up Picking up transmitter includes shell, for providing installing space；Position acquisition module, it is fixedly mounted in the shell, for gathering The position active signal of user；Electrocardio Breath collection module, is fixedly mounted in the shell, for gathering the heart of user Electric signal and respiratory waveform signal；Bluetooth communication module, it is fixedly mounted in the shell, for realizing that the physiologic information is picked up Pick up the data transfer between transmitter and the mobile terminal and communication；Central processing unit, the central processing unit are fixedly mounted In the shell, the central processing unit respectively with the position acquisition module, the electrocardio Breath collection module and described Bluetooth communication module is connected, for receiving and handling the electrocardiosignal, respiratory waveform signal and position active signal of user, with And control and the wireless telecommunications of the mobile terminal.

Electrocardio, breathing, the sleep-walking reporting system of position monitoring described above, more preferably：The position gathers mould Block is four axle gyro sensors or six axle gyro sensors.

Electrocardio, breathing, the sleep-walking reporting system of position monitoring described above, more preferably：The electrocardio breathing is adopted Collection module includes chip, for collecting signal；First electrode button, the first electrode button pass through Internal cable and the chip phase Even, for gathering the electrocardiosignal and breath signal of user；Second electrode button, the second electrode button by Internal cable with The chip is connected, for gathering the electrocardiosignal and breath signal of user；The chip collect the first electrode button and The electrocardiosignal and respiratory waveform signal of the second electrode button, and by electrocardiosignal and respiratory waveform signal be sent to it is described in Central processor.

Electrocardio, breathing, the sleep-walking reporting system of position monitoring described above, more preferably：The physiologic information is picked up Picking up transmitter also includes power module, and the power module is fixedly mounted in the shell, for being picked up for the physiologic information Pick up transmitter and electric power is provided.

Electrocardio, breathing, the sleep-walking reporting system of position monitoring described above, more preferably：In the mobile terminal On be additionally provided with waveform display module, the waveform display module is connected with the data processing module, for showing user's Heart real time waveform, real-time respiratory waveform, instantaneous heart rate value and instantaneous breathing value.

Electrocardio, breathing, the sleep-walking reporting system of position monitoring described above, more preferably：In the mobile terminal On be additionally provided with position display module, the position display module is connected with the data processing module, for showing user's Position active signal.

A kind of method of the monitoring sleep-walking for the sleep-walking reporting system that electrocardio described above, breathing, position monitor, it includes step It is rapid as follows：

Step 1: electrocardiosignal, respiratory waveform signal, the body of transmitter collection user is picked up using the physiologic information Position active signal, and send to the receiving module of the mobile terminal；

Step 2: the mobile terminal receives the electrocardiosignal of user, respiratory waveform signal, position active signal Afterwards, the electrocardiosignal of user, respiratory waveform signal, position active signal are uploaded to high in the clouds or PC terminals；

Step 3: the mobile terminal or PC terminals believe the electrocardiosignal of user, respiratory waveform signal, position activity Compared with electrocardiosignal, respiratory waveform signal and position active signal number when user is in sleep, when the heart of collection When electric signal, respiratory waveform signal and position active signal are that user is in signal value when sleeping, then user is drawn Do not occur sleep-walking state；Signal value scope when the electrocardiosignal and respiratory waveform signal of collection are still in sleep, and gather Position active signal for stand or walking signal value when, then show that sleep-walking state occurs in user；

Step 4: user is in the information of sleep-walking state and is not in sleep-walking state by the mobile terminal or PC terminals Information be uploaded to the high in the clouds；

Step 5: the information of sleep-walking state is in by the user in high in the clouds described in the PC terminal-pairs and is not in dreaming of The information of state is collected, arranges, filed, and generates report, and basic basis are provided to intervene the later stage of user.

The method of monitoring sleep-walking described above, more preferably：Electrocardio and breathing when user is in sleep are worth small In or equal in the electrocardio and the 80% of breathing value when awakening.

Analysis understands that compared with prior art, the advantages of the present invention are：

Electrocardio provided by the invention, breathing, the sleep-walking reporting system of position monitoring, transmitter is picked up to adopt using physiologic information Ji Yuan, electrocardiosignal, respiratory waveform signal and position active signal to user are acquired, and the electrocardio of user is believed Number, respiratory waveform signal and position active signal send to mobile terminal, in the data processing module of mobile terminal, will gather To the electrocardiosignal of user, respiratory waveform signal and position active signal and user sleep when electrocardiosignal, exhale Inhale waveform signal and position active signal is compared, electrocardiosignal, respiratory waveform signal and position active signal when collection When being that user is in signal value when sleeping, then show that user does not occur sleep-walking state；When collection electrocardiosignal and Signal value scope when respiratory waveform signal is still in sleep, and the position active signal gathered is the signal value of standing or walking When, then show that sleep-walking state occurs in user；User is in by sleep-walking state by the upload cloud module of mobile terminal again Information uploads to high in the clouds, and the information that the user stored by PC terminal-pairs high in the clouds is in sleep-walking state is collected, arranged, and Analysis report can be filed and be generated, is ready with carrying out treatment to the sleep-walking of user；It is simultaneously as of the invention Physiologic information pick up transmitter and there was only two electrode buttons, and the front position of user is directly worn to disposable electrode patch Put, be not in the cable winds user body of routine monitoring device and cause user's poor sleep, i.e., the present invention can The comfortable basis of good sleep and the stronger superiority of system rejection to disturbance ability are provided from collection source for user.The present invention is logical Cross electrocardiosignal and respiratory waveform signal show that user is in sleep state, while user is drawn by position active signal It is active, i.e., the present invention can immediately arrive at user and be in dormant position active signal and immediately arrive at and make User is in sleep-walking state.

Brief description of the drawings

Fig. 1 is the building-block of logic for the sleep-walking reporting system that electrocardio, breathing, the position of the preferred embodiment of the present invention monitor；

Fig. 2 is that the physiologic information of the preferred embodiment of the present invention picks up the structural representation of transmitter.

In figure：1- physiologic informations pick up transmitter；11- shells；12- charging modules；13- position acquisition modules；14- electrocardios Breath collection module；141- chips；142- first electrode buttons；143- second electrode buttons；15- power modules；16- central processings Device；17- bluetooth communication modules；18-5pin contact interfaces；19- charging receivers；2- mobile terminals；21- receiving modules；22- numbers According to processing module；23- memory modules；24- uploads cloud module；25- waveform display modules；26- position display modules；27- numerical value Display module；3- high in the clouds；4-PC terminals.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete Site preparation describes, it is clear that described embodiment is only part of the embodiment of the present invention, rather than whole embodiments.It is based on Embodiment in the present invention, those of ordinary skill in the art are obtained every other under the premise of creative work is not made Embodiment, belong to the scope of protection of the invention.

As shown in Figure 1 and Figure 2, the electrocardio of the preferred embodiment of the present invention, breathing, the sleep-walking reporting system of position monitoring are main Transmitter 1 is picked up including physiologic information, is placed on the body of user, for gathering electrocardiosignal, the respiratory waveform of user Signal and position active signal；Mobile terminal 2, receiving module 21, data processing module 22 are provided with mobile terminal 2, is uploaded Cloud module 24；Receiving module 21 is picked up transmitter 1 with physiologic information and is connected, and making for transmitter 1 is picked up for receiving physiologic information Electrocardiosignal, respiratory waveform signal and the position active signal of user；Data processing module 22 is connected with receiving module 21, data User's electrocardiosignal, the respiratory waveform signal of the reception of processing module 22 are signal value when user is in sleep, and are received User's position active signal for user be in awakening when signal value when (when the electrocardiosignal and respiratory waveform of collection Signal value scope when signal is still in sleep, and the position active signal gathered for stand or during the signal value of walking), then Go out user and be in sleep-walking state；Waveform display module 25 is connected with data processing module 22, for showing that user's is real-time Ecg wave form figure and real-time respiratory waveform figure；Position display module 26 is connected with data processing module 22, for showing user Real-time position action message；The data processing module 22 of numerical value display module 27 is connected, for showing the instantaneous heart rate of user Value and instantaneous breathing value；Upload cloud module 24 with data processing module 22 to be connected, for user to be in the letter of sleep-walking state Breath is uploaded to high in the clouds 3；With PC terminals, PC terminals realize wireless connection with high in the clouds 3, and the user for obtaining high in the clouds 3 is in dream The information of free state, to realize monitoring and report that sleep-walking state is in user.

Sum it up, electrocardio provided by the invention, breathing, the sleep-walking reporting system of position monitoring are with physiologic information pickup hair Emitter 1 is collection source, and the electrocardiosignal, respiratory waveform signal and position active signal to user are acquired, and will be used Electrocardiosignal, respiratory waveform signal and the position active signal of person is sent to mobile terminal 2, in the data processing of mobile terminal 2 In module 22, by the sleep of the electrocardiosignal of the user collected, respiratory waveform signal and position active signal and user When electrocardiosignal, respiratory waveform signal and position active signal be compared, electrocardiosignal, respiratory waveform signal when collection With position active signal be user be in sleep when signal value when, then show that user does not occur sleep-walking state；When adopting The electrocardiosignal and respiratory waveform signal integrated is in signal value during sleep as user, and the position active signal gathered is to make User awaken when signal value when, then show that sleep-walking state occurs in user；Again will by the upload cloud module 24 of mobile terminal 2 The information that user is in sleep-walking state uploads to high in the clouds 3, and the user stored by PC terminals 4 to high in the clouds 3 is in sleep-walking shape The information of state is collected, arranged, and can be filed and generated analysis report, is treated with the sleep-walking to user It is ready；Simultaneously as the physiologic information of the present invention picks up transmitter 1 directly along the vertical direction of human body axis, post In the manubrium position of front, be not in the cable winds user body of routine monitoring device and cause user's sleep not Good situation, the i.e. present invention can provide the basis of comfortable sleeping from collection source for user.The present invention passes through electrocardiosignal Show that user is in sleep state with respiratory waveform signal, while show that user is in moving type by position active signal State, the i.e. present invention, which can immediately arrive at user and be in dormant position active signal and immediately arrive at user, is in dream Free state.

For the ease of being acquired to the physiologic information of user, as shown in Fig. 2 the physiologic information of the present invention picks up transmitting Vertical direction of the device 1 along human body axis, post in the manubrium position of front.Physiologic information of the present invention is picked up transmitter 1 and led To include shell 11, for providing installing space；Position acquisition module 13, it is fixedly mounted in shell 11, is used for gathering The position active signal of person；Electrocardio Breath collection module 14, is fixedly mounted in shell 11, and the electrocardio for gathering user is believed Number and respiratory waveform signal；Central processing unit 16, central processing unit 16 are fixedly mounted in shell 11, and central processing unit 16 is distinguished It is connected with position acquisition module 13 and electrocardio Breath collection module 14, for receiving and handling electrocardiosignal, the breathing of user Waveform signal and position active signal, and control and the wireless telecommunications of mobile terminal.

It is accurate in order to be monitored to the body position signal of user, and accurate measurements user position activity it is specific Parameter, as shown in Fig. 2 the position acquisition module 13 of the present invention is four axle gyro sensors or six axle gyro sensors； Under normal circumstances, position acquisition module 13 can interpolate that the simple physical activity information of user, but the degree of accuracy is poor；Again Person, four axle gyro sensors and six axle gyro sensors are usually used in aviation, navigation, space flight and national defense industry, to national defence Industry is monitored, and also four axle gyro sensors and six axle gyro sensors are not used and the body position signal of people entered Row monitoring, the present invention take full advantage of the functional characteristics of four axle gyro sensors and six axle gyro sensors, come real Now to the monitoring of the body position signal of user, it can so strengthen the precision of the body position signal monitoring to user.

It is accurate in order to the electrocardiosignal to user and respiratory waveform signal measurement, as shown in Fig. 2 the heart of the present invention Electric Breath collection module 14 includes chip 141, for collecting electrocardio and breath signal；First electrode button 142, first electrode button 142 are connected by Internal cable with chip 141, for gathering the electrocardiosignal of user；With second electrode button 143, the second electricity Pole button 143 is connected by Internal cable with chip 141, for gathering the electrocardiosignal of user, and passes through first electrode button 142 With the respiratory waveform signal of the effect collection user of second electrode button 143；Chip 141 collects the electrocardio of first electrode button 142 The respiratory waveform signal of the electrocardiosignal and user of signal and second electrode button 143, and by the electrocardiosignal of user and Respiratory waveform signal is sent to central processing unit 16.In order to prevent first electrode button 142 and second electrode button 143 from being caused to use Unstability is disturbed, as shown in Fig. 2 the shell 11 of the present invention is coated on the outside of first electrode button 142, for preventing the first electricity Pole button 142 causes unstability and for protecting first electrode button 142 in use；The shell 11 of the present invention is coated on the second electricity The outside of pole button 143, for preventing second electrode button 143 from causing unstability to disturb and for protecting second electrode button to use 143.Preferably, the bag of shell 11 carries out first electrode button 142, the part of second electrode button 143 is circular configuration, is set on circular configuration There is arc-shaped transition section；Because first electrode button 142 and second electrode button 143 are connected by Internal cable with chip 141 respectively, it is This cable is protected and prevented occur firmly connecting between first electrode button 142, second electrode button 143 and Internal cable Connect, Internal cable is involved when pulling first electrode button 142, second electrode button 143, as shown in Fig. 2 the shell 11 of the present invention Realize being flexible coupling between first electrode button 142, second electrode button 143 and Internal cable.In the present invention, electrocardio Breath collection Module 14 is the acquisition module of ADAS1000-4LFCSP models.

In order to prevent physiologic information picks up transmitter 1 from causing unconformable situation to user, as shown in Fig. 2 of the invention Physiologic information pick up transmitter 1 shell 11 for streamline fusiformis structure, set at the length direction both ends of streamline fusiformis structure There is the radian stage to stretch out.Preferably, the length of shell 11 is 96~110mm, and the width of shell 11 is 35~55mm, outside The thickness of shell 11 is 10~15mm；First electrode button 142, second electrode button 143 circular configuration a diameter of 15mm, it is provided with The length of arc-shaped transition section be 30mm.The size structure why present invention picks up transmitter 1 to physiologic information is defined, Its purpose is to user is easy to wear, physiologic information is set to pick up transmitter 1 along human body axis by the restriction of size The vertical direction of line, post in the manubrium position of front；Accordingly even when when user is turned over, moved, also will not shadow The normal use that physiologic information picks up transmitter 1 is rung, especially when user sleeps and turned over because the depth of chest ditch is more than life The thickness that information picks up transmitter 1 is managed, accordingly even when physiologic information pickup transmitter 1 will not also oppress use after user turns over The chest of person, user's ortho can be made.

Under normal circumstances, it is only necessary to which user wears physiologic information at night and picks up the progress of transmitter 1 electrocardiosignal, exhales Inhale waveform signal, body position signal to be monitored, in order to prevent physiologic information picks up transmitter 1 from occurring that electricity is low or the feelings of out of power Shape, as shown in Fig. 2 the physiologic information of the present invention, which picks up transmitter 1, also includes power module 15, power module 15 is fixedly mounted on In shell 11, electric power is provided for picking up transmitter 1 for physiologic information.In the present invention, the power-on time of power module 15 is big In 8 hours, it can so meet the electric power needs of the All Through The Night of user.Present invention additionally comprises charging module 12, fixed peace In shell 11, for being charged to power module 15；

The physiologic information of the present invention, which picks up transmitter 1, also includes charging receiver 19, and charging receiver 19 is used to store life Manage information and pick up transmitter 1, and control physiologic information to pick up the keying of transmitter 1, the power supply of transmitter 1 is picked up for physiologic information Module 15 charges, transmits the data that physiologic information pickup transmitter 1 stores, and shows that physiologic information picks up transmitter 1 as charging State or working condition.In order to prevent the dismounting of power module 15 picks up transmitter 1 to physiologic information from having undesirable effect, such as Shown in Fig. 2, physiologic information of the invention, which picks up transmitter 1, also includes 5pin contact interfaces 18, one end of 5pin contact interfaces 18 It is connected with the contact pilotage for the receiver 19 that charges.The contact pilotage of charging receiver 19 is placed on its top surface, and 5pin contact interfaces 18 are placed in life Manage information to pick up on the bottom surface of transmitter 1, be connected with power module 15, for being charged for power module 15.

Under normal circumstances, physiologic information picks up transmitter 1 and is not easy by the way of cable to be connected with mobile terminal 2；I.e. It is conventional wireless manner to make, and is believed also due to user turns over the connection for causing physiologic information to pick up transmitter 1 and mobile terminal 2 It is number poor；In order to prevent the appearance of these situations, as shown in Fig. 2 the physiologic information of the present invention, which picks up transmitter 1, also includes bluetooth Communication module 17, bluetooth communication module 17 are connected with central processing unit 16, and are connected with the bluetooth equipment of mobile terminal 2, are used for The electrocardiosignal of user, respiratory waveform signal, body position signal are sent to the bluetooth equipment of mobile terminal 2.It is of the invention abundant Using the bluetooth equipment of mobile terminal 2, strengthen physiologic information and pick up signal transmission between transmitter 1 and mobile terminal 2.

Present invention electrocardiosignal, respiratory waveform signal and body position signal of observation user for accurate measurements and conveniently, As shown in figure 1, the present invention is additionally provided with waveform display module 25, waveform display module 25 and data processing mould on mobile terminal 2 Block 22 is connected, for showing the ecg wave form and respiratory waveform of user.For the ease of distinguishing the ecg wave form of user and exhaling Waveform is inhaled, waveform display module 25 of the invention divides for top display part and bottom display part, is respectively used to individually display and uses The ecg wave form or respiratory waveform of person.In order to check the activity of the position of user in time, as shown in figure 1, the present invention exists Position display module 26 is additionally provided with mobile terminal 2, position display module 26 is connected with data processing module 22, makes for showing The position active signal of user.In order to be easy to heartbeat numerical value, breathing numerical value to user to be monitored, as shown in figure 1, The present invention is additionally provided with numerical value display module 27 on mobile terminal 2, and numerical value display module 27 is connected with data processing module 22, uses In the heartbeat numerical value and respiration rate numerical value of display user.For the ease of the electrocardiosignal to user, respiratory waveform signal, The information such as position active signal are stored, as shown in figure 1, the present invention is additionally provided with memory module 23 on mobile terminal 2, are stored Module 23 is connected with data processing module 22, for the information in data storage processing module 22.

In the present invention, the data processing module 22 of mobile terminal 2 handles electrocardiosignal, the respiratory waveform signal of user With the information of position active signal, the information changed including the use of the change information of person's heart rate and the rhythm of the heart, user's respiratory rate, The information of difference, user breathe equilibrium degree information and position chanP information between user's inspiratory phase and expiratory phase.

The present invention also provides a kind of electrocardio, breathing, the method for the monitoring sleep-walking of position, and it is as follows that it includes step：

Step 1: using the physiologic information pick up transmitter 1 gather the electrocardiosignal of user, respiratory waveform signal, Position active signal, and send to the receiving module of mobile terminal 2；

Step 2: after mobile terminal 2 receives the electrocardiosignal of user, respiratory waveform signal, position active signal, will Electrocardiosignal, respiratory waveform signal, the position active signal of user is uploaded to high in the clouds 3 or PC terminals 4；

Step 3: mobile terminal 2 or PC terminals 4 are by the electrocardiosignal of user, respiratory waveform signal, position active signal Compared with electrocardiosignal, respiratory waveform signal and position active signal when user is in sleep, when the electrocardio of collection When signal, respiratory waveform signal and position active signal are that user is in signal value when sleeping, then user is drawn not There is sleep-walking state；Signal value when the electrocardiosignal and respiratory waveform signal of collection are in sleep for user, and gather Position active signal for user awaken when signal value when (when the electrocardiosignal and respiratory waveform signal of collection are still in Signal value scope during sleep, and gather position active signal for stand or walking signal value when), then show that user goes out Now dream of state；

Step 4: user is in the information of sleep-walking state and is not in sleep-walking state by mobile terminal 2 or PC terminals 4 Information is uploaded to the high in the clouds；

Step 5: the information of sleep-walking state is in the user in high in the clouds by PC terminals 4 and is not in sleep-walking state Information is collected, arranges, filed, and generates report, and basic basis are provided for the successive treatment of user.

In the medical institutions such as hospital, judge whether a people is in dormant foundation, often take a brain electricity Convenient value as threshold value, be then sleep state in threshold range；Then it is waking state not in threshold range；But This monitoring is inaccurate, and the situation of mistake even occurs, and extremely inconvenient using process, and severe jamming user's sleeps Sleep；In order to solve this problem, the present invention integrates high-precision electrocardio, breathing, position information, forms brand-new judgement body System, principle are as follows：

Heart rate information, the average heart rate of the user obtained when origin or beginning gathers, for heart rate value of awakening.When the heart of user Rate value is equal to or less than the 80% of the awakening heart rate value of user, then the sleep heart rate value after being fallen asleep for user；

Rhythm of the heart information, the mean heart rate of the user obtained when origin or beginning gathers, for rhythm of the heart value of awakening.When the heart of user Rule value is equal to or less than the 80% of the awakening rhythm of the heart value of user, then the sleep rhythm of the heart value after being fallen asleep for user；

Respiratory rate information, the average respiratory rate of the user obtained when origin or beginning gathers, for awaken respiratory rate value, When user respiratory rate value be equal to or less than user the awakening respiratory rate value of information 80%, then enter for user Sleep-respiratory frequency information value after dormancy；

Breathe phase differential information, the mean difference between the inspiratory phase and expiratory phase of the user obtained when origin or beginning gathers Value, phase difference value is breathed for awakening.The awakening for being equal to or less than user when the breathing phase difference value of user breathes difference 80% not be worth, then the sleep difference value after being fallen asleep for user；

Equilibrium degree information is breathed, the average breathing rule of the user obtained when origin or beginning gathers is awakening breathing equilibrium degree Value.The awakening for being equal to or less than user when the breathing rule of user breathes the 80% of balanced angle value, then is in and sleeps for user Breathing equilibrium angle value during dormancy.

After above-mentioned " origin or beginning " refers in particular to user's wearing physiologic information pickup transmitter, one section to lie down before falling asleep is felt Wake up the time.

Analysis understands that compared with prior art, the advantages of the present invention are：

Electrocardio provided by the invention, breathing, the sleep-walking reporting system of position monitoring pick up transmitter 1 to adopt with physiologic information Ji Yuan, electrocardiosignal, respiratory waveform signal and position active signal to user are acquired, and the electrocardio of user is believed Number, respiratory waveform signal and position active signal send to mobile terminal 2, will in the data processing module 22 of mobile terminal 2 Electrocardio letter during the sleep of the electrocardiosignal of the user collected, respiratory waveform signal and position active signal and user Number, respiratory waveform signal and position active signal be compared, electrocardiosignal, respiratory waveform signal and position activity when collection When signal is that user is in signal value when sleeping, then show that user does not occur sleep-walking state；When the electrocardio of collection is believed Number and respiratory waveform signal be user be in sleep when signal value, and gather position active signal for user awaken when Signal value when, then show that sleep-walking state occurs in user；User is in by the upload cloud module 24 of mobile terminal 2 again The information of sleep-walking state uploads to high in the clouds 3, and the information for being in sleep-walking state to the user that high in the clouds 3 stores by PC terminals 4 is entered Row is collected, arranged, and can be filed and generated analysis report, is ready with carrying out treatment to the sleep-walking of user； Simultaneously as the physiologic information of the present invention picks up transmitter 1 directly along the vertical direction of human body axis, the chest in front is posted Bone handle position, be not in the cable winds user body of routine monitoring device and cause the situation of user's poor sleep, I.e. the present invention can provide the basis of comfortable sleeping from collection source for user.The present invention passes through electrocardiosignal and respiratory waveform Signal show that user is in sleep state, while show that user is active by position active signal, i.e. this hair It is bright can immediately arrive at user and be in dormant position active signal and immediately arrive at user be in sleep-walking state.

As known by the technical knowledge, the present invention can pass through the embodiment party of other essence without departing from its spirit or essential feature Case is realized.Therefore, embodiment disclosed above, for each side, all it is merely illustrative, is not only.Institute Have within the scope of the present invention or be included in the invention in the change being equal in the scope of the present invention.

Claims (10)

1. a kind of electrocardio, breathing, the sleep-walking reporting system of position monitoring, it is characterised in that including：

Physiologic information picks up transmitter, posts on the body of user, for gathering and sending electrocardiosignal, the breathing of user Waveform signal and position active signal；

Mobile terminal, receiving module, data processing module are provided with the mobile terminal, uploads cloud module；The reception mould Block is picked up transmitter with the physiologic information and is wirelessly connected, the user for picking up transmitter for receiving the physiologic information and sending Electrocardiosignal, respiratory waveform signal and position active signal；The data processing module is connected with the receiving module, described Signal value when data processing module judges user's electrocardiosignal, respiratory waveform signal is in sleep for user, and receive User's position active signal for user be in awakening when signal value when, then show that user is in sleep-walking state；Institute State upload cloud module with the data processing module to be connected, the information for user to be in sleep-walking state is uploaded to high in the clouds；

With PC terminals, the PC terminals realize wireless connection with the high in the clouds, and the user for obtaining the high in the clouds is in dream The information of free state, to realize monitoring and report that sleep-walking state is in user.

2. electrocardio according to claim 1, breathing, the sleep-walking reporting system of position monitoring, it is characterised in that：

The physiologic information picks up vertical direction of the transmitter along human body axis, posts in the manubrium position of front.

3. electrocardio according to claim 1 or 2, breathing, the sleep-walking reporting system of position monitoring, it is characterised in that described Physiologic information, which picks up transmitter, to be included：

Shell, for providing installing space；

Position acquisition module, it is fixedly mounted in the shell, for gathering the position active signal of user；

Electrocardio Breath collection module, is fixedly mounted in the shell, for gathering the electrocardiosignal and respiratory waveform of user Signal；

Bluetooth communication module, it is fixedly mounted in the shell, for realizing that the physiologic information picks up transmitter and the shifting Data transfer and communication between dynamic terminal；

Central processing unit, the central processing unit are fixedly mounted in the shell, the central processing unit respectively with the body Position acquisition module, the electrocardio Breath collection module are connected with the bluetooth communication module, for receiving and handling user's Electrocardiosignal, respiratory waveform signal and position active signal, and control and the wireless telecommunications of the mobile terminal.

4. electrocardio according to claim 3, breathing, the sleep-walking reporting system of position monitoring, it is characterised in that：

The position acquisition module is four axle gyro sensors or six axle gyro sensors.

5. electrocardio according to claim 3, breathing, the sleep-walking reporting system of position monitoring, it is characterised in that the electrocardio Breath collection module includes：

Chip, for collecting signal；

First electrode button, the first electrode button is connected by Internal cable with the chip, for gathering the electrocardio of user Signal and breath signal；

Second electrode button, the second electrode button is connected by Internal cable with the chip, for gathering the electrocardio of user Signal and breath signal；The chip collects the electrocardiosignal and respiratory waveform of the first electrode button and the second electrode button Signal, and electrocardiosignal and respiratory waveform signal are sent to the central processing unit.

6. electrocardio according to claim 3, breathing, the sleep-walking reporting system of position monitoring, it is characterised in that the physiology Information, which picks up transmitter, also to be included：

Power module, the power module are fixedly mounted in the shell, are carried for picking up transmitter for the physiologic information Power supply power.

7. electrocardio according to claim 1 or 2, breathing, the sleep-walking reporting system of position monitoring, it is characterised in that：

Waveform display module, the waveform display module and the data processing module phase are additionally provided with the mobile terminal Even, for showing heart real time waveform, real-time respiratory waveform, instantaneous heart rate value and the instantaneous breathing value of user.

8. electrocardio according to claim 1 or 2, breathing, the sleep-walking reporting system of position monitoring, it is characterised in that：

Position display module, the position display module and the data processing module phase are additionally provided with the mobile terminal Even, for showing the position active signal of user.

A kind of 9. prison for the sleep-walking reporting system that electrocardio, breathing, position according to claim 1 to 8 any one monitors The method for surveying sleep-walking, it is characterised in that as follows including step：

Step 1: electrocardiosignal, respiratory waveform signal, position that transmitter collection user is picked up using the physiologic information are lived Dynamic signal, and send to the receiving module of the mobile terminal；

Step 2: after the mobile terminal receives the electrocardiosignal of user, respiratory waveform signal, position active signal, will Electrocardiosignal, respiratory waveform signal, the position active signal of user is uploaded to high in the clouds or PC terminals；

Step 3: the mobile terminal or PC terminals by the electrocardiosignal of user, respiratory waveform signal, position active signal with Electrocardiosignal, respiratory waveform signal and position active signal when user is in sleep are compared, when the electrocardio of collection is believed Number, respiratory waveform signal and position active signal be when being signal value when user is in sleep, then show that user does not go out Now dream of state；Signal value scope when the electrocardiosignal and respiratory waveform signal of collection are still in sleep, and the body gathered When position active signal is the signal value stood or walked, then show that sleep-walking state occurs in user；

Step 4: user is in the information of sleep-walking state and is not in the letter of sleep-walking state by the mobile terminal or PC terminals Breath is uploaded to the high in the clouds；

Step 5: the information of sleep-walking state is in by the user in high in the clouds described in the PC terminal-pairs and is not in sleep-walking state Information be collected, arrange, file, and generate report, basic basis provided to intervene the later stage of user.

10. the method for monitoring sleep-walking according to claim 9, it is characterised in that：

Electrocardio and breathing value when user is in sleep are less than or equal to 80% of the electrocardio and breathing value during in awakening.