CN108186012A - The sleep apnea intelligence wearable device moved based on brain electricity and chest and abdomen - Google Patents

Abstract

The invention discloses a kind of sleep apnea intelligence wearable devices moved based on brain electricity and chest and abdomen, monitor main body including wearable device, have eeg monitoring module in wearable device monitoring main body, for monitoring human body electroencephalogram's signal；Central processing unit, for handling analysis human-body biological signal；Power module, for providing power supply；Alarm module, for receiving the alarm signal of central processing unit, and alerted to user and nursing staff, the human-body biological signal transmission of monitoring to central processing unit, the central processing unit will be sent to alarm module by the measuring of human health module after human-body biological signal analysis and processing.Medical monitoring wearable device using the present invention can make up the deficiency of brain electricity and breathing medical monitoring device monitoring means.

Description

The sleep apnea intelligence wearable device moved based on brain electricity and chest and abdomen

Technical field

The present invention relates to a kind of medical monitoring equipment more particularly to a kind of intelligence analyzed for brain electricity and chest and abdomen motion monitoring It can medical monitoring equipment.

Background technology

Sleep apnea syndrome is a kind of common sleep-disorder, is the height of the major diseases such as hypertension, cerebral apoplexy Danger influence factor, can cause sudden death, have 10% or so adult to be influenced by sleep apnea syndrome at present when serious, It finds and treats sleep apnea to be of great significance early.Mouth and nose air-flow is clinically stopped 10 seconds referred above to breathing Pause, define apnea low reduces by more than 50% and with blood for respiratory air flow intensity in sleep procedure compared with foundation level Oxygen saturation declines at least 4% compared with foundation level；Occur in continuous 7 hours sleep procedures 30 times or more apnea or Average apnea low per hour is more than that chronic hypoxemia caused by 5 times and the clinical syndrome of hypercapnia claim For sleep apnea syndrome.There are no occur observing by monitoring human body electroencephalogram and chest and abdomen motor message on Vehicles Collected from Market With the intelligent medical equipment for the treatment of sleep apnea syndrome.

At present clinically for the diagnosis of sleep apnea syndrome mainly using hypnotic instrument is led, patient can be monitored more Electrocardio, myoelectricity, brain electricity, eye electricity, chest and stomach wall movement, blood oxygen saturation, mouth and nose respiratory air flow and the sound of snoring etc..Using leading more Hypnogram can accurately detect sleep apnea, be the gold standard of clinical diagnosis, but equipment is complicated, expensive, Patient is asked to remain in a hospital under observation, monitoring data need professional to read, and need to place numerous electrodes and sensing on the patient whole body Device can seriously affect patient at night sleep, while easy to fall off be easy to cause of sensor measures inaccuracy in sleep procedure.Therefore this Kind mode is suitable for making a definite diagnosis suspected patient, is not particularly suited for ordinary user's use.

In addition, it also attempts to lead hypnotic instrument, but all instead of complex and expensive by easy monitoring means there are many research more It is by being monitored to a certain physiological signal, since there are certain disturbing factor, single differentiations in practical application Standard can influence its accuracy, its application is caused to be restricted.

Invention content

In view of the foregoing, it is a primary object of the present invention to make up brain electricity and breathing medical monitoring device monitoring means Deficiency, provide it is a kind of it is easy to wear, comfort level is good, vdiverse in function, low-cost a kind of for monitoring brain electricity and chest and abdomen movement Medical monitoring wearable device.

In order to achieve the above objectives, the technical proposal of the invention is realized in this way：

A kind of sleep apnea intelligence wearable device moved based on brain electricity and chest and abdomen, is monitored including wearable device Main body, the wearable device, which is monitored in main body, eeg monitoring module, for monitoring human body electroencephalogram's signal；Central processing Device, for handling analysis human-body biological signal；Power module, for providing power supply；Alarm module comes from centre for receiving The alarm signal of device is managed, and is alerted to user and nursing staff, the measuring of human health module is by the human-body biological of monitoring Signal transmission to central processing unit, the central processing unit will be sent to alarm module after human-body biological signal analysis and processing.

The wearable device monitoring main body includes headring monitoring device and corselet monitoring device；The headring monitoring Include electrode for encephalograms in equipment and corselet monitoring device, be respectively intended to monitoring EEG signals and chest and abdomen motor message；Integrated circuit Plate has control circuit on the integrated circuit plate, for controlling transmission monitoring signals；Power supply, for providing power supply；Alarm electricity Road, for being alerted to human body monitoring signal；The electrode for encephalograms, respiration transducer are respectively transferred to the human body signal of monitoring Control circuit, control circuit control warning circuit.

The invention also includes Sensor monitoring module, chest and abdomen motion monitoring mould is contained in the Sensor monitoring module Block, the chest and abdomen motion monitoring module are used for monitoring human body chest and abdomen motor message, power module, and the power module is used for Power supply, wireless transport module, for being wirelessly transferred are provided；The chest and abdomen motion monitoring module is by the human-body biological signal of monitoring Central processing unit is sent to by wireless transport module.

Wireless transport module is further included in the wearable device monitoring main body, which is used for by Human body electroencephalogram's signal of central processor analyzing and processing is sent to wireless terminal device.

Control circuit on the integrated circuit plate includes EEG Processing circuit, A/D conversion circuits, central processing Device and peripheral circuit, radio communication circuit, voltage conversion circuit；The voltage conversion circuit provides power supply to circuit module； The human body signal monitored is sent to central processing unit and peripheral circuit by EEG Processing circuit by A/D conversion circuits； The central processing unit and peripheral circuit are by circuit is sent to wirelessly by radio communication after human body monitoring signal analysis and processing Receive terminal.

The warning circuit is vibrating motor.

The EEG Processing circuit includes input buffer amplifier circuit, filter circuit, second amplifying circuit；It is described Electrode for encephalograms the EEG signals monitored are passed through into brain electric treatment circuit transmission to A/D conversion circuits.

The chest and abdomen motion monitoring module includes contactless chest and abdomen motion module and contact chest and abdomen motion module.

The contactless chest and abdomen motion module includes pretreatment circuit, filter circuit, amplifying circuit, A/D conversion electricity Road, wireless transport module；Chest and abdomen motion sensor by the human body chest and abdomen motor message of monitoring by processing circuit, filter circuit, Amplifying circuit is transmitted to A/D conversion circuits, and the A/D conversion circuits are by wireless transport module by human body monitoring signal transmission To wireless communication terminal.

The contact chest and abdomen motion module includes amplifying circuit, filter circuit, A/D conversion circuits, wireless transmission mould Block；The human body chest and abdomen motor message of monitoring is transmitted to A/D conversion electricity by chest and abdomen motion sensor by amplifying circuit, filter circuit Road, the A/D conversion circuits are by wireless transport module by human body monitoring signal transmission to wireless communication terminal.

Present invention has the advantages that：1st, the present invention can be with synchronous acquisition brain electricity, chest and abdomen motor message, and Synchronization Analysis is real Now to the detection of sleep quality apnea syndrome, the defects of effectively compensating for complicated existing Medical Devices, high cost with And the analyzing and diagnosing of other medical monitoring equipment is according to single, caused by analyzing and diagnosing state of an illness accuracy it is poor the defects of；2nd, this hair It is bright that head can be conveniently located at using electrode for encephalograms sensor, and can with chest and abdomen motion sensor wireless connection, so as to survey Brain electricity and chest and abdomen motor message are measured, the defects of inconvenient is measured caused by avoiding traditional limb leads；3rd, headring main body Different patient's head dummy differences can be better adapted to using flexible material and wear comfort can be improved, shadow will not be caused to sleep It rings；Headring main body using elastic material both can be directed to different user actual conditions adjust electrode, sensor position, to Account shape difference degree of containing is high, can also fix electrode, sensor in the position on head, it is made to keep well connecing with head always It touches；4th, it wakes up the patient in sleep apnea state in time using alarm module, avoids the generation of tragedy.

Description of the drawings

Fig. 1 is system block diagram of the embodiment of the present invention；

Fig. 2 is another embodiment of the present invention system block diagram；

Fig. 3 is headring monitoring device structure chart of the embodiment of the present invention；

Fig. 4 is control circuit block diagram on integrated circuit plate in headring monitoring device of the embodiment of the present invention；

Fig. 5 is midbrain electric signal processing circuit block diagram of the embodiment of the present invention；

Fig. 6 is contactless chest and abdomen motion module circuit block diagram in the embodiment of the present invention；

Fig. 7 present invention is contact chest and abdomen motion module circuit block diagram in embodiment；

Fig. 8 is headring monitoring device midbrain electricity electrode position schematic diagram of the embodiment of the present invention；

Specific embodiment

Below in conjunction with the accompanying drawings and specific embodiments of the present invention are described in further detail invention.It should be emphasized that It is that the description below is only exemplary, the range being not intended to be limiting of the invention and its application.

It would be recognized by those skilled in the art that it is possible that numerous accommodations are made to above description, so embodiment is only For describing one or more particular implementation.

The present invention can monitor brain electricity and the Intelligent monitoring device of chest and abdomen movement, and easy to carry, cost is not high, be suitble to vast A kind of measuring of human health equipment that patient uses.

Referring to Fig. 1, a kind of sleep apnea intelligence wearable device moved based on brain electricity and chest and abdomen of the present invention, including Wearable device monitors main body 7, has eeg monitoring module 21 in wearable device monitoring main body 7, the eeg monitoring mould Block 21 is used for monitoring human body electroencephalogram's bio signal, and the human body electroencephalogram's bio signal monitored is transmitted to central processing unit 1.

Central processing unit 1 is further included in the wearable device monitoring main body 7, for handling analysis human-body biological letter Number；Power module 3, for providing power supply；Alarm module 4, for receiving the alarm signal from central processing unit, and to user And nursing staff's alarm；The central processing unit 1 will be sent to alarm module 4 after human-body biological signal analysis and processing.

Wireless transport module 5 is further included in wearable device monitoring main body 7 of the present invention, for transmitting a signal to Mobile radio terminal 6；The central processing unit 1 after human-body biological signal analysis and processing by wireless transport module 5 to being sent To mobile radio terminal 6.Wireless communication transmissions module 5 in the present embodiment uses Bluetooth wireless communication module, bluetooth channel radio Letter module A/D can be sampled after data and data transmission after central processing unit 1 analyzes and processes to mobile control eventually End 6.

Referring to Fig. 2, Sensor monitoring module, the Sensor monitoring module can also be included in monitoring system of the present invention There is sensor outer housing 8, chest and abdomen motion monitoring module 22, the chest and abdomen motion monitoring are contained in the sensor outer housing 8 Module 22 is used for monitoring human body chest and abdomen motor message, power module 31, and the power module 31 is used for providing power supply, wireless to pass Defeated module 51, for being wirelessly transferred；The chest and abdomen motion monitoring module 22 is by the human-body biological signal of monitoring by wirelessly passing Defeated module 51 is sent to central processing unit 1.

Referring to Fig. 3, wearable device monitoring main body 7 of the present invention can be headring monitoring device 71 and corselet monitoring Equipment.When the present invention monitors human body signal, headring monitoring device is worn over human body brain, for monitoring human body electroencephalogram's signal；Institute The corselet monitoring device stated is through human body front, for monitoring human body chest and abdomen motor message.

Wearable device monitoring main body 7 of the present invention includes headring monitoring device 71, the headring monitoring device Electrode for encephalograms 72, electrode for encephalograms stent 73, integrated circuit plate 74, vibrating motor 75, power supply 76 are equipped in 71；The brain Electric electrode support 73 is fixed in headring monitoring device 7, and the electrode for encephalograms 72 is mounted on electrode for encephalograms stent 73.Institute There is control circuit on the integrated circuit plate 74 stated, for controlling transmission human body monitoring signal；The vibrating motor 75 is Warning circuit；Power supply 76 is battery, for providing power supply.

The electrode for encephalograms 72, human body electroencephalogram's signal transmission of monitoring to control circuit, which will alert Signal transmission is alerted to vibrating motor 76.

The electrode for encephalograms 72 is connected with signal processing integrated circuit plate 74, and power supply 76 is to the control on integrated circuit plate 74 Circuit processed provides power supply.

In this example, headring monitoring device 71 uses elastic textile material, and being lined with conduction inside headring monitoring device 71 knits Object material forms shielding space, and electrode for encephalograms 72 is the dry electrodes of Ag-AgCl, and the material of electrode for encephalograms stent 73 is elastoplastic.

The electrode for encephalograms 72 is connect, and reduced by the way of shield guard with integrated circuit plate 75 by shielding line Interference.

Referring to Fig. 8, in the present embodiment, 72 position of electrode for encephalograms is two of which electrode (first electrode and second electrode) point It is not placed in the F of electroencephalogram international standard 10-20 lead systems_p1、F_p2Place, electrode for encephalograms 72 are placed in F_zPlace, integrated circuit plate 74 positions are first electrode near forehead, among second electrode, and vibrating motor and position of source is below integrated circuit plates. Chest and abdomen motion detection block 22 is positioned over right over the user's chest and abdomen to lie low, chest and abdomen motion sensor face user's chest and abdomen.

Referring to Fig. 4, in the present embodiment, the control on integrated circuit plate 74 in headring monitoring device 71 of the present invention Circuit 210 includes EEG Processing circuit 211, A/D conversion circuits 212, central processing unit and peripheral circuit 213, channel radio Believe circuit 214, voltage conversion circuit 215, the voltage conversion circuit 215 provides power supply, brain telecommunications to each circuit module The human body signal monitored is sent to central processing unit and peripheral circuit by number processing circuit 211 by A/D conversion circuits 212 213, the central processing unit and peripheral circuit 213 are by circuit 214 by radio communication after human body monitoring signal analysis and processing It is sent to radio receiving terminal.The integrated circuit plate 74 uses flexible PCB, can improve human comfort.

Voltage conversion circuit 215 in the present embodiment is by operation used in supply voltage lifting/voltage reducing to each signal processing circuit Voltage needed for amplifier chip and central processing unit and peripheral circuit 215 (this example is ± 5V, 3.3V, 1.8V and GND), for collection It powers into circuit board 74, respiration transducer 78.

Referring to Fig. 5, in the present embodiment, brain fax inductive circuit 72 of the present invention includes first electrode 721；Second electrode 722；The Three electrodes 723；EEG Processing circuit 211 includes input buffer amplifier circuit 2111, filter circuit 2112, two level amplification electricity Road 2113 is amplified by the EEG signals that eeg sensor 72 captures through inputting buffer amplifier circuit 2111；Amplified signal is defeated Enter to filter circuit 2112 and eliminate noise and interference；Amplify filtered signal input second amplifying circuit 2113 again to amplify； EEG signals after amplification are input to a channel of A/D sample circuits 213.

Referring to Fig. 2, Fig. 6, Fig. 7, chest and abdomen motion monitoring module 22 of the present invention includes contactless chest and abdomen and moves mould Block 2101 and contact chest and abdomen motion module 2102.

Referring to Fig. 6, in the present embodiment, the contactless chest and abdomen motion module 2101 of the present invention includes pretreatment circuit 222, filter Wave circuit 223, A/D conversion circuits 225, wireless transport module 226, is monitored when chest and abdomen motion sensor 221 amplifying circuit 224 It is transferred to pretreatment circuit 222 after to human body signal to be pre-processed, pretreated signal is input to filter circuit 223 and eliminates Noise and interference；Signal input amplifying circuit 224 after being filtered is amplified；Electric signal after amplification is input to A/D Sample circuit 225 is converted, and transformed electric signal is transmitted to radio receiving terminal by wireless transport module 226.

Referring to Fig. 7, in the present embodiment, contact chest and abdomen motion module 2102 of the present invention includes amplifying circuit 2212nd, filter circuit 2213, A/D conversion circuits 2214, wireless transport module 2215；Chest and abdomen motion sensor 221 is by monitoring Human body chest and abdomen motor message is transmitted to A/D conversion circuits 2214, the A/D by amplifying circuit 2212, filter circuit 2213 Conversion circuit 2214 is by wireless transport module 2215 by human body monitoring signal transmission to wireless communication terminal.

The central processing unit of the embodiment of the present invention uses DSP, and input terminal is connected with the output terminal of A/D sample circuits, together When DSP and vibrating motor 76 connect, DSP combinations peripheral circuit carries out digital letter to the EEG signals of input, heart rate signal Number processing, the digital filtering including EEG signals, EEG signals pretreatment eliminate bioelectricity artefact, the feature of EEG signals carries It takes, the feature recognition of EEG signals, the feature extraction of heart rate signal and feature recognition, according to special to EEG signals, heart rate signal The result of identification is levied according to special algorithm comprehensive analysis, whether user is judged in sleep apnea state, when user is in DSP can play the role of alarm to vibrating motor 2-6 transmission high level signals during sleep apnea.

The central processing unit of this example includes the feature extraction and identification of EEG signals and chest and abdomen motor message：By brain electricity Signal is segmented by every section of 10s, and energy spectrum analysis is carried out to every section of brain electricity and obtains the relative energy of δ, θ, α and β wave and calculates slow wave Than (δ+θ)/(alpha+beta)；The signal measured chest and abdomen motion sensor is analyzed, and is moved to obtain respiration case according to chest and abdomen； According to slow wave, when the relative energy variation of δ waves and respiration case judge apnea, if delay ratio and δ wave energies significantly increase Add and chest and abdomen motion sensor is unmeasured is denoted as respiration suspending event to exhalation/inhalation event and starts, delay ratio, δ waves increase The respiration case of duration and respiration transducer is added to stop the time that the duration is apnea, when apnea Between be more than threshold value after trigger alarm module.Preferably, the time of apnea can be set a threshold to, such as when apnea Time is more than 10 seconds triggering alarm modules.The radio communication circuit of this example uses Bluetooth wireless communication module, and bluetooth is wireless Communication module A/D can be sampled after data and data transmission after DSP is analyzed and processed to mobile control terminal.This reality In example, mobile control terminal selects PC.

The foregoing is only a preferred embodiment of the present invention, is not intended to limit the scope of the present invention.

Claims (10)

1. a kind of sleep apnea intelligence wearable device moved based on brain electricity and chest and abdomen, it is characterised in that：Including that can wear Monitoring of equipment main body is worn, has eeg monitoring module in wearable device monitoring main body, for monitoring human body electroencephalogram's signal； Central processing unit, for handling analysis human-body biological signal；Power module, for providing power supply；Alarm module, in receiving The alarm signal of central processor, and alerted to user and nursing staff；The measuring of human health module gives birth to the human body of monitoring Object signal transmission to central processing unit, the central processing unit will be sent to alarm module after human-body biological signal analysis and processing.

2. the sleep apnea intelligence wearable device moved according to claim 1 based on brain electricity and chest and abdomen, feature It is：The wearable device monitoring main body includes headring monitoring device and corselet monitoring device；The headring monitoring is set Include electrode for encephalograms in standby and corselet monitoring device, for monitoring EEG signals；Integrated circuit plate, on the integrated circuit plate There is control circuit, for controlling transmission monitoring signals；Power supply, for providing power supply；Warning circuit, for human body monitoring signal Alarm；The human body signal of monitoring is transferred to control circuit by the electrode for encephalograms, respiration transducer respectively, the control circuit control Warning circuit processed.

3. the sleep apnea intelligence wearable device according to claim 1 or claim 2 moved based on brain electricity and chest and abdomen, special Sign is：Sensor monitoring module is further included, chest and abdomen motion monitoring module is contained in the Sensor monitoring module, it is described Chest and abdomen motion monitoring module is used for monitoring human body chest and abdomen motor message, power module, and the power module is used for providing power supply, Wireless transport module, for being wirelessly transferred；The chest and abdomen motion monitoring module passes through the human-body biological signal of monitoring wireless Transmission module is sent to central processing unit.

4. the sleep apnea intelligence wearable device according to claim 1 or claim 2 moved based on brain electricity and chest and abdomen, special Sign is：Wireless transport module is further included in the wearable device monitoring main body, which is used for by Human body electroencephalogram's signal of central processor analyzing and processing is sent to wireless terminal device.

5. the sleep apnea intelligence wearable device moved according to claim 2 based on brain electricity and chest and abdomen, feature It is：Control circuit on the integrated circuit plate includes EEG Processing circuit, A/D conversion circuits, central processing unit And peripheral circuit, radio communication circuit, voltage conversion circuit；The voltage conversion circuit provides power supply to circuit module；Brain The human body signal monitored is sent to central processing unit and peripheral circuit by electric signal processing circuit by A/D conversion circuits；Institute The central processing unit and peripheral circuit stated are by circuit is sent to and wirelessly connects by radio communication after human body monitoring signal analysis and processing Receive terminal.

6. the sleep apnea intelligence wearable device moved according to claim 2 based on brain electricity and chest and abdomen, feature It is：The warning circuit includes vibrating motor.

7. the sleep apnea intelligence wearable device moved according to claim 5 based on brain electricity and chest and abdomen, feature It is：The EEG Processing circuit includes input buffer amplifier circuit, filter circuit, second amplifying circuit；Described The EEG signals monitored are passed through brain electric treatment circuit transmission to A/D conversion circuits by electrode for encephalograms.

8. the sleep apnea intelligence wearable device moved according to claim 3 based on brain electricity and chest and abdomen, feature It is：The chest and abdomen motion monitoring module includes contactless chest and abdomen motion module and contact chest and abdomen motion module.

9. the sleep apnea intelligence wearable device moved according to claim 8 based on brain electricity and chest and abdomen, feature It is：The contactless chest and abdomen motion module include pretreatment circuit, filter circuit, amplifying circuit, A/D conversion circuits, Wireless transport module；The human body chest and abdomen motor message of monitoring is passed through processing circuit, filter circuit, amplification by chest and abdomen motion sensor Circuit transmission is to A/D conversion circuits, and the A/D conversion circuits are by wireless transport module by human body monitoring signal transmission to nothing Line receives terminal.

10. the sleep apnea intelligence wearable device moved according to claim 8 based on brain electricity and chest and abdomen, feature It is：The contact chest and abdomen motion module includes amplifying circuit, filter circuit, A/D conversion circuits, wireless transport module； The human body chest and abdomen motor message of monitoring is transmitted to A/D conversion circuits by chest and abdomen motion sensor by amplifying circuit, filter circuit, The A/D conversion circuits are by wireless transport module by human body monitoring signal transmission to radio receiving terminal.