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CN1063624C - Wearing type superminiature heart protecting system and method - Google Patents

Wearing type superminiature heart protecting system and method Download PDF

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Publication number
CN1063624C
CN1063624C CN94104951A CN94104951A CN1063624C CN 1063624 C CN1063624 C CN 1063624C CN 94104951 A CN94104951 A CN 94104951A CN 94104951 A CN94104951 A CN 94104951A CN 1063624 C CN1063624 C CN 1063624C
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China
Prior art keywords
cardioelectric monitor
transmission
discriminating gear
analysis system
automatical
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CN94104951A
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CN1110121A (en
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王湘生
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Cadiou Medical Equipments Co., Ltd., Beijing
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CADIOU MEDICAL EQUIPMENTS Co Ltd BEIJING
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Priority to CN94104951A priority Critical patent/CN1063624C/en
Priority to AU73441/94A priority patent/AU7344194A/en
Priority to PCT/CN1994/000060 priority patent/WO1995028128A1/en
Publication of CN1110121A publication Critical patent/CN1110121A/en
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    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Measuring for diagnostic purposes; Identification of persons
    • A61B5/24Detecting, measuring or recording bioelectric or biomagnetic signals of the body or parts thereof
    • A61B5/316Modalities, i.e. specific diagnostic methods
    • A61B5/318Heart-related electrical modalities, e.g. electrocardiography [ECG]
    • A61B5/332Portable devices specially adapted therefor
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Measuring for diagnostic purposes; Identification of persons
    • A61B5/24Detecting, measuring or recording bioelectric or biomagnetic signals of the body or parts thereof
    • A61B5/316Modalities, i.e. specific diagnostic methods
    • A61B5/318Heart-related electrical modalities, e.g. electrocardiography [ECG]

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  • Health & Medical Sciences (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Heart & Thoracic Surgery (AREA)
  • Medical Informatics (AREA)
  • Biophysics (AREA)
  • Pathology (AREA)
  • Engineering & Computer Science (AREA)
  • Biomedical Technology (AREA)
  • Cardiology (AREA)
  • Physics & Mathematics (AREA)
  • Molecular Biology (AREA)
  • Surgery (AREA)
  • Animal Behavior & Ethology (AREA)
  • General Health & Medical Sciences (AREA)
  • Public Health (AREA)
  • Veterinary Medicine (AREA)
  • Measurement And Recording Of Electrical Phenomena And Electrical Characteristics Of The Living Body (AREA)

Abstract

The present invention relates to a wearing type superminiature heart protecting system and a method thereof. The wearing type superminiature heart protecting system can be worn by a user by placing an electrocardiosignal recording device in a necklace with a pendant, so that the wearing type superminiature heart protecting system can collect and store electrocardiogram at any time, and can analyze the electrocardiogram to immediately indicate whether the electrocardiogram is normal or not. The system also comprises a signal transmission device and an electrocardio automatic analyzing device, wherein when needed, the signal transmission device transfers signals stored by the wearing device to the electrocardio automatic analyzing device which can send analysis reports of ECG and various parameter indexes. The present invention can catch the electrocardiogram at the heart attack of a patient at any time, and ECG playback can be carried out when required at any time.

Description

Cardioelectric monitor, transmission and automatical analysis system
The present invention relates to a kind of cardioelectric monitor, transmission and automatical analysis system and method thereof, relate more specifically to a kind of superminiature heart protecting system of wearing that is applicable to, and the method for this system of enforcement.
There is serious illness killer miscellaneous threatening human survival in the world.Wherein the cardiovascular serious illness is exactly extremely vicious first killer.
The World Health Organization (WHO) announced on April 7th, 1992: have every year 1200 ten thousand people to die from the cardiovascular diseases in the world, account for 1/4 of human death toll.The satisfactory angiopathy of WHO is " dead enemy of world's public health ", and the theme of a World Hygiene Day this day is decided to be health of heart, the prevention cardiovascular diseases.Slogan is: " rhythm and pace of moving things of heartbeat-health ".
The interrelated data of China shows that the number that China dies because of the cardiovascular diseases every year accounts for more than 50% of total death toll.The numeral of the up-to-date announcement of the Chinese Academy of Medical Sciences is that annual China patients with coronary heart disease is 9,000 ten thousand people, wherein has 3,000,000 people to die from " myocardial infarction " or " sudden cardiac death " of this disease.
In the face of human first killer, be in explosion time generation, the cardiovascular patient that seldom can be saved and do not live usually in the invention for the treatment of medicine of cardiovascular disease today especially now of science prosperity.Electrocardiogram (ECG) then is to be one of important indicator of internationally recognized diagnosis of heart disease, especially coronary heart disease already.
The death of cardiovascular patient is usually because of by mistaken diagnosis, because take place uncomfortable in chest when patient has coronary ischemia in early days, electrocardiogram when pareordia discomfort or angina pectoris is not in time noted, and doctor's difficulty does not have the preparation of prevention to the medicated cap that patient wears " coronary heart disease ".Another reason usually is when morbidity, the place of patient beyond hospital, and the state of an illness is only given an oral account Xiang the doctor by the hospital that can not arrive in the very nick of time, and the doctor also is difficult to provide method of disposal accurately.
Existing electrocardiograph volume is big, is not easy to carry, and settles nearly 10 more than at electrode, complicated operation.And mostly early coronary disease patient arrhythmia and ST-T change are of short duration, several minutes.With the ordinary electrocardiogram machine catch one cross property arrhythmia or PR-QRS-ST-T change and be difficult to accomplish.
Existing dynamic ecg (Holter) though can store 24 hours electrocardiosignaies, the recorder volume greatly, heavier, cost an arm and a leg, can't be as the individual health care articles for use, can only be as the hospital diagnosis instrument.Patient wore 24 hours once in a while, and the signal in the time of also may not necessarily capturing morbidity is because the early coronary disease patient's heart rhythm is not normal or the PR-QRS-ST-T change is not all can take place every day.
In recent years, people also constantly develop some the small-sized electrocardiosignal monitoring devices that can carry, the volume that has is opened paper size as 32, but or do not have store function or do not have the diagnostic alarms function, more non intelligentization, can only on liquid crystal display, show and not reach requirement of actual application far away in function by electrocardiogram.Non-medical personnel is ignorant of Electrocardiographic people and is not understanding according to the test result of monitor oneself heart condition.The doctor who more can't not go to hospital just electrocardiosignal to be sent to different hospitals holds a consultation.
The cardioscribe that has can only be reported to the police to tachycardia or bradycardia, and can not report to the police to wave form varies.
In the clinical picture of reality, electrocardiographic abnormality is not only that heart rate is unusual, also has PR-QRS-ST-T to change, and ever-changing, pairing heart disease name of disease is also completely different.Therefore must make machine intelligenceization, even so also will rely on doctor's affirmation.Decentraction disease of ZANG-organs and same cardiopathic decentraction electrograph performance should give medicine also completely different.So this class invention science of answering is taken seriously.But some cardiac monitoring instruments are arranged at present, even titled with the title of full-automatic heart-monitoring emergency instrument, but be only with heart rate whether greater than 180 times/minute or less than 50 times/minute, there is no under the situation that electrocardiogram shows just warning or carry out electric pace-making, and " automatically " ejects medicine box to patient to patient.This is extremely dangerous, even patient is caused death.
Experiment of electrocardiogram treadmill exercise or the experiment of treadmill electrocardiogram or the experiment of persantin electrocardio are the method that adopts the mode of bringing out that ill electrocardiogram is come out.This has certain danger to patient.Than severe disease Genus Homo taboo person.
Its electrode position does not meet the internationally recognized scope that is provided with (two exploring electrodes that make three electrodes though the cardioscribe that has is little, a reference electrode) should be greater than the regulation of heart scope, the cardioscribe that perhaps has is only used two electrodes, is not inconsistent fully with internationally recognized cardiac diagnosis lead standard.The figure of the identical guiding of leading is inconsistent in the electrocardiogram of tracing out like this and the internationally recognized electrocardiogram, and diagnosis is just wrong certainly.
The purpose of this invention is to provide a kind of cardioelectric monitor, transmission and automatical analysis system and method thereof; it makes the patient who wears superminiature heart protection instrument of the present invention; can be at any time by individual wearable device record and storage electrocardiogram (ECG), making the patient catch the abnormal electrocardiogram signal at any time becomes possibility.This device also automatically carries out real-time analysis to electrocardiosignal, judges tentatively whether wearer's electrocardiogram is normal, and the preliminary advice that need not seek medical advice is provided for the patient.
Purpose of the present invention further is; a kind of intelligentized wearing type superminiature heart protecting system and method thereof are provided; the electrocardiosignal of gathering and storing wherein by individual carried device; can be by infrared transmission to the electrocardiogram automatic analysing apparatus; automatically obtain analyzing; except printing electrocardiogram, can also provide the illness analysis report that the ordinary people of no Professional knowledge also can understand.
The present invention also aims to; a kind of wearing type superminiature heart protecting system and method thereof are provided; it can pass through communication networks such as wired or wireless telephone channel, pager network; ecg analysis terminal that the electrocardiosignal that individual carried device is gathered and stored is sent to is long-range (such as hospital); thereby realize that the remote ecg figure between patient and doctor, doctor and the doctor transmits, provide monitoring timely and treatment for the patient to greatest extent.
The present invention also aims to; a kind of superminiature heart protector that can be worn with oneself by the patient is provided; it make the patient can not need that medical personnel seek, under the situation of installing electrodes, with the international standard II connection electrode of leading, record meets the electrocardiogram of cardiac diagnosis lead international standard at any time.
Purpose of the present invention further is, a kind of superminiature heart protector that can be worn with oneself by the patient is provided, and its power consumption is reduced to minimum, and service time is more than 500 hours after its battery charge.
According to an aspect of the present invention, described heart protecting system partly is made up of individual carried device part, electrocardiosignal transmitting device part and electrocardiosignal automatic analysing apparatus basically.Wherein, individual carried device part of the present invention is called " Cardioprotective god " in the coml name; it is made for similar to common necklace in shape; on necklace, be provided with three electrodes at a certain distance, make it connect human body with the international standard cardiac diagnosis lead that the standard II is led and measure.In addition, this part also comprises ecg signal amplifier, be used for the electrocardiosignal that magnifying electrode is gathered, a single-chip microcomputer, be used to store the electrocardiosignal of being gathered, and it is carried out preliminary analysis and processing, and testing result display device, it is by forming as the different light emitting diode of the color of display lamp and/or as the buzzer of attention device, in order to the result who ECG Signal Analysis is handled according to microcomputer, light the display lamp of particular color and/or make buzzer send the acoustical signal of characteristic frequency, make caution and report to the wearer, and these parts are concentrated all and are installed among the ornament shell that is similar to pendant.The patient can wear this special " necklace " with oneself; at any time write down electrocardiosignal when needed; and the sound that sends by the buzzer in the jewelry and/or the indicator on the jewelry state of understanding current own heart, thereby provide protection the most timely for oneself heart.This individual carried device part, can also comprise an infrared transmitter, also it is encased within the pendant decorative shell, be used for when needed, the electrocardiogram that partly transmits its collection and storage to an electrocardiogram automatic analysing apparatus carries out the ECG playback, so that electrocardiosignal is carried out more careful and comprehensive analyzing and processing, obtains detailed detection and diagnosis report.Electrocardiogram automatic analysing apparatus in the system of the present invention part is made of people's computer PC one by one, be used for electrocardiosignal is analyzed and diagnosed, get a about ECG various features parameter analysis result and be depicted in internationally recognized electrocardiogram graph paper (abscissa be 40mS/mm, ordinate is 1mV/1cm) on the ECG curve, for doctor's diagnosis provides true and reliable illness analysis report, instruct thereby make patient can obtain best disposal.And the electrocardiosignal transmitting device part in the system of the present invention, can correspondingly comprise an infrared remote receiver, be connected with the electrocardiogram automatic analysing apparatus, such as being connected with the RS-232 mouth of personal computer, in order to receiving the signal of sending by the RF transmitter of individual carried device, and give computer with it and analyze and handle.
According to another aspect of the present invention; described Worn type superminiature heart protecting system comprises individual wearable device, electrocardiogram automatic analysing apparatus; and electrocardiosignal transporter; wherein transporter comprises infrared remote receiver; it is connected with telephone set; utilize data set to pass through wired or wireless telephone line, the electrocardiosignal by individual wearable device sent out that it is received is transferred among the long-range electrocardiogram automatic analysing apparatus.
According to a further aspect of the present invention, described Worn type superminiature heart protecting system comprises individual wearable device, electrocardiogram automatic analysing apparatus, and electrocardiosignal transporter, wherein the electrocardiogram automatic analysing apparatus also further comprises one in order to receive the radio receiver of electrocardiosignal, a personal computer PC that is connected with radio receiver is used for received electrocardiosignal is analyzed and diagnosed; The electrocardiosignal transporter then further comprises an infrared remote receiver, in order to receive the electrocardiosignal that sends out by individual wearable device, a radio transmitter is used to launch the electrocardiosignal that it receives, and is received for the radio receiver of remote ecg figure automatic analysing apparatus.
As previously mentioned; individual wearable device part in the heart protecting system of the present invention is similar with common necklace in shape; to be provided with three electrodes with the electrocardio II close position, position of leading, pendant then is made up of chip that ecg signal acquiring system and computer are housed in the ornamental shell and circuit on its necklace.User connects the II crosslinking electrode of the choker individual wearable device of being worn in sense precordialgia or cardiopalmus or when uncomfortable in chest, opens the switch on the pendant, and electrocardiosignal is just gathered by this device and stored.Through its automatic analysis, coronary heart disease in this way, malignant arrhythmia, then its display lamp light of sending particular color (as redness) is indicated and/or buzzer sends the sound of for example equally spaced " BB ", urges patient to go to check.If healthy people, electrocardiogram is normal substantially, and then green indicating lamp is lighted and/or buzzer sends for example melodious sound of note " 1-2-3-4-5-6-7-i ".This intelligentized wearable device can judge tentatively whether patient's electrocardiogram is normal.Known to the present patent application people, Shang Weijian has like product in the world.When what the electrocardiogram when patient wants to look at that oneself is fallen ill is on earth, can take off individual wearable device from neck, give doctor or relevant service personal, as long as in coverage, press the switch of individual wearable device, the ECG signal that is stored in wherein can be transferred on the Cardiolyzer by infrared ray (method that perhaps can adopt direct line to transmit), the electrocardiogram when analyzer is finished and demonstrated patient automatically on display after the analyzing and processing and fall ill and have the multiple electrocardiogram parameter trend figure of diagnostic value.Can print report when needing automatically or draw the ECG curve.
Also the signal of storage in the individual carried device (necklace) can be transmitted to a distant place by telephone wire, facsimile machine, pager network, cellular phone network according to the present invention; realize that the electrocardiogram between patient and doctor, doctor and the doctor transmits; for heart patient and healthy people provide Cardioprotective timely, this makes the user obtain the real security.On April 21st, 1994, system of the present invention has obtained gold medal and unique Nobel prize-Grand Prix of this exhibition on the 22 Geneva international invention and new technique exhibition.
By the detailed description below in conjunction with accompanying drawing, above-mentioned purpose, the feature and advantage with other of the present invention will become more apparent.In the drawings:
Fig. 1 is the functional-block diagram according to first technical scheme of the present invention;
Fig. 2 is the functional-block diagram according to second technical scheme of the present invention;
Fig. 3 is the functional-block diagram according to the 3rd technical scheme of the present invention;
Fig. 4 is the electrical schematic diagram of individual wearable device embodiment in the heart protecting system according to the present invention;
Fig. 5 is an electrical schematic diagram according to the signal transmitting apparatus of heart protecting system of the present invention;
Fig. 6 is the electrical schematic diagram of another program of the signal transmitting apparatus of the dirty protection system of electrocardio according to the present invention;
Fig. 7-1 and Fig. 7-2 illustrates individual wearable device carries out analytic record to electrocardiosignal program flow diagram;
Fig. 8 illustrates the main flow chart of the electrocardiosignal automatic analysing apparatus analyzing and processing of the dirty protection system of electrocardio of the present invention;
Fig. 9 illustrates the flow chart of the input patient information subprogram in the flow process shown in Figure 8;
Figure 10 illustrates the programme diagram of the ECG signal analysis and processing in the flow process shown in Figure 8;
Figure 11 illustrates the subprogram figure that the QRS wave group detects in the ECG signal analysis and processing program;
Figure 12 illustrates the subprogram figure that shows the arrhythmia result in the flow process shown in Figure 8;
Figure 13 illustrates the subprogram figure that sick class is differentiated in the subprogram of Figure 12;
Figure 14 illustrates the subprogram figure that shows the ST-T analysis result in the flow process shown in Figure 8;
The example that Figure 15 reports for a arrhythmia analysis that the present invention provides;
The analysis chart example of a every bat rhythm of the heart that Figure 16 provides for the present invention;
The HR-PR-ST-T analysis report example that Figure 17 provides for the present invention;
The HR rectangular histogram example that Figure 18 provides for the present invention;
The QRS persistent period rectangular histogram example that Figure 19 provides for the present invention;
The ST section rectangular histogram example that Figure 20 provides for the present invention;
The T ripple rectangular histogram example that Figure 21 provides for the present invention;
Figure 22 is the electrocardiogram example that the present invention write down; And
Sketch map when Figure 23 wears for individual carried device in the system of the present invention.
As Figure 1-3, heart protecting system of the present invention is made up of individual carried device 1, signal transmitting apparatus 2 and Cardiolyzer 3 substantially.Referring to Fig. 1, individual carried device of the present invention comprises the ecg signal acquiring device of being made up of electrode 10 and ecg signal amplifier 11, the intelligent analysis processor, buzzer and/or the display lamp 13 that are made of singlechip chip 12, and infrared transmitter 14.Whole individual carried device is made the form that a band weighs down necklace on external form, wherein three electrodes 10 are formed on the necklace by ad-hoc location, its natural place is roughly distributed by the locations of structures that the standard cardioelectric II is led, even an exploring electrode is positioned at intersection point place between right midclavicular line and second rib, another exploring electrode is positioned on the chest costicartilage edge of lower-left and left mid-clavicular line intersection point place, reference electrode then is located on the costicartilage edge of right side and clavicle joining place, right side, referring to example shown in Figure 23.Like this, even make the people who is ignorant of medical science, also can under the situation that need not medical personnel's helping directive, correctly seek the position of leading and also can accurately install.Cardiac diagnosis lead of the present invention meets the international standard II of assert this prerequisite of leading, and has guaranteed the Electrocardiographic standard and the normality of being gathered in the system of the present invention.Gained result and internationally recognized electrocardiology conclusion have comparability.Will detect and when writing down ECG, connect three electrodes 10 wearing on " necklace " of front when the patient who wears this device (necklace) feels uncomfortable or in office what is the need for of heart, this device can be gathered electric heart signal.These electrodes 10 can be made the form of double buckle, by simple pressure by engaging; Also can utilize solid-state conducting resinl to realize, need not to be subjected to electrode to fetter on the seasonal disease person not writing down like this.Ecg amplifier 11 amplifies the electrocardiosignal that electrode 10 is gathered, and delivers to then in the single-chip microcomputer 12 and analyzes and handle.When single-chip microcomputer 12 distinguishes that the electrocardiosignal of being gathered is unusual ECG, by sending signal, for example make it to send the sound of " BB " to buzzer 13, warn to the wearer; If electrocardiosignal is normal, then make buzzer 13 send for example the Sound of Music.Also can adopt the form of display lamp, when the electrocardiosignal of gathering when distinguishing is unusual ECG, for example sends out a warning and warn, and at ECG just often, for example give a green light.
In this embodiment of the invention, the single-chip microcomputer of individual carried device is so to set to the criterion of unusual heart bat:
1. the unusual heart is clapped and is differentiated:
(1) ABRNUM: unusual RR interval, counted, and criterion is: RR>1175ms or RR<600ms are HR<51bpm or HR>100bpm
(2) ABQRSN: abnormal Q RS width counting, criterion is QRS>120mS
(3) ABSTNUM: unusual ST section, T ripple counting, criterion is: ST:J level point 〉=M level point 〉=END level point T:T ripple<0 or | the T wave amplitude |<1/4|R wave amplitude |
(4) the unusual P ripple counting of ABPNUM, criterion is: PR>200ms or PR<80ms
2. when one of following condition is set up, drive buzzer and send " BB " sound, otherwise send musical sound:
(1) ABRNUM>1/8 (R ripple sum)
(2)ABQPSN>3
(3)ABSTNUM>9
(4) ABPNUM>1/2 (P ripple sum)
Fig. 4 illustrates an electrical connection embodiment of individual wearable device.Wherein each connecting pin is:
PUM1=pulse width modulation output
P0.0…P0.7:
The P0 mouth is 8 two-way I/O mouths of leakage, when access external memory, and the P0 mouth
As low order address/data/address bus mouth, at this moment the P0 mouth is haled high potential with inside and is sent 1
P2.0…P2.7:
The P2 mouth bidirectional interface that is as the criterion, output most-significant byte address when the visit external storage
WR external data memory write gate output line
RD external data memory read strobe signal output lead
XTAL1 crystal oscillator input 1
XTAL2 crystal oscillator input 2
ALE/PRDG address latch signal line can directly be visited the CMOS external memory
RESET reset signal input
With reference to Fig. 4, ecg signal amplifier output electrocardiosignal is sent into to carry out the A/D conversion by the P5.0 mouth of singlechip chip, after signal becomes digital quantity by analog quantity, through latch and 256KRAM data storage is got up.After the single-chip microcomputer processing, write among the read only memory ROM wherein, after the handling process that will narrate through the back, according to aforementioned specific indexes, the various indexs of measuring are judged, by the PUM1 mouth of chip, send instruction then to buzzer, when ECG just often, make buzzer send for example sound of musical sound; And when unusual ECG occurs, make buzzer for example send the chimes of doom of " BB ".When the electrocardiosignal that transmission is stored, the 1-3 end of switch SW 1, SW2 is contacted, energized is sent pulse from the TXD end, sends the variable infrared ray waveform of dutycycle by infrared transmitting tube, for the infrared remote receiver reception of signal transmitting apparatus.Infrared remote receiver is connected with the middle computer RS232 interface of electrocardiogram automatic analysing apparatus, commands this ECG automatic analysing apparatus that it is reduced into data by the RS232 interface, is stored in the middle of the hard disk of its computer, for further analyzing and handling.
Fig. 7-1 and Fig. 7-2 illustrates the program flow diagram that single-chip microcomputer is analyzed electrocardiosignal in the individual carried device.Individual's wearable device analysis programme starts from step S001.At step S002, enumerator T0, T1 are carried out initialization, at step S003, serial input and output (SIO) mouthful initialization.Step S004 judges whether PUM (referring to PUM1 port among Fig. 4) output.If yes, program enters step S012, carries out PUM output, and signal is delivered to buzzer, controls it and sends specific sound, arrives step S013 then, cuts off the electricity supply.If step S004 is judged as not, flow process advances to step S005, and judging whether will be with playback on the sensing device of electrocardiosignal in the electrocardiogram automatic analysing apparatus.If, to step S006 playback electrocardiogram, send electrocardiosignal to the electrocardiogram automatic analysing apparatus, carry out computer analysis, enter step S013 again, cut off the electricity supply; If not, then proceed to step S007, judge whether serial port self check into RAM.Whether the purpose of self check is that the hardware connection status of the hardware connecting device of individual carried device is checked, connect correct and certain such as definite electrode.If step S007 is judged to be and is, flow process is carried out self check at step S008 simultaneously to the serial port of RAM, enters step S013 then, cuts off the electricity supply; If flow process enters step S009, carries out the RAM self check not.In the RAM self check, if find that electrode does not contact or hardware when fault is arranged, the red light in the device is lighted, and perhaps makes buzzer send the sound of certain agreement, and the connection situation of reminding the customer inspection carried device is carried out electrode again and connected and start.After the RAM self check is passed through, promptly determine device connection and in good condition after, enter the initialization that step S010 carries out variable.Install then at step S011 and carry out adaptive learning, such as the time of utilizing for 6 seconds, come learning device wearer normal sinus rhythm, as follow-up basis of electrocardiosignal being carried out analyzing and processing.
Continuation judges at step S014 whether RAM is full referring to Fig. 7-2.If full, program advances to step S015, shows that differentiating the result puts full scale will, then at step S022 power cutoff; If less than, program is carried out the electrocardiogram pretreatment at step S016, carries out the QRS wave group then and detects (S017), T ripple detection (S018), ST section detection (S019), P ripple detection (S020).At step S022, setting value according to aforesaid " criterion that single-chip microcomputer is clapped the unusual heart ", whether differentiate detected parameters normal, and then make judgement to heart condition, send the sound of relevant normal or abnormal caution for buzzer, or make the indication of respective color by display lamp.Program cycle judges to step S014 whether RAM is full then.Relevant to ECG pretreatment, QRS wave group detect, the T ripple detects, the detection of ST section, and the subprogram that detects of P ripple can be referring to the relevant explanation of follow-up Computer Processing flow process to the electrocardiogram automatic analysing apparatus.
In first kind of technical scheme of the present invention, the patient can be in needs, and the individual wearable device 1 that will have its electrocardiosignal is delivered to hospital, by starting the infrared transmitter 14 in this device, the ECG signal is sent to the electrocardiosignal automatic analysing apparatus.In heart protecting system of the present invention; (it mainly is made up of personal computer 30 electrocardiosignal automatic analysing apparatus 3; such as 386PC) be connected with the infrared remote receiver 20 of signal transmitting apparatus 2; the ECG signal that this infrared remote receiver 20 will receive from infrared transmitter 14 is delivered to computer 30; (such as the RS-232 mouth of delivering to 386PC); analyze for it, make state of an illness diagnosis.
Fig. 6 shows device for signalling and electrocardiogram automatic analysing apparatus computer (PC) and the matched electrical schematic diagram of RS232 mouth.Wherein, the signal that is received through infrared receiving tube D1 carries out computing by operational amplifier IC1 and amplifies, and is anti-phase by inverter ic 3 comparator IC2 compares computing after, again via line drive IC4 driving and export this output signal D OutDeliver to PC RS232 mouth through socket S2.S1, S2, S3 are socket among the figure.
Certainly, also can not adopt infrared transmission and adopt the mode of wire transmission to realize that the signal between individual carried device and the electrocardiogram automatic analysing apparatus transmits.Fig. 5 shows an example of this connection.At this moment utilize the driving chip to link to each other with the serial communication interface of PC.
Of the present invention second and the third technical scheme in, can exempt the labor that the patient hurries to hospital, also can realize the transmission of electrocardiosignal between the hospital.Such as, (see figure 2) in second kind of scheme, signal transmitting apparatus 2 comprises, infrared remote receiver 20 is connected with domestic telephone set (21), the patient can press the infrared transmitter switch in the individual wearable device at home, after the infrared remote receiver 20 in parallel with the home telephone machine receives, utilizes a data set, by the public telephone circuit, the ECG signal is delivered to the electrocardiogram automatic analysing apparatus of prescription on individual diagnosis hospital.(see figure 3) in the third scheme of the present invention, signal transmitting apparatus comprises infrared remote receiver 20 and radio transmitter (22), infrared remote receiver 20 sends the ECG signal that is received to radio transmitter (22), be sent to by radio wave among the electrocardiogram automatic analysing apparatus of agreement hospital, at this moment the latter is connected with a radio receiver 32, so that receive the ECG signal from individual wearable device.
Fig. 8-14 shows the flow chart that electrocardiosignal is carried out analyzing and processing in the electrocardiogram automatic analysing apparatus.Wherein ECG pretreatment (S403), QRS wave group detect the subprogram of (S404), the detection of P ripple (S405) and ST section, T wave analysis (S406) step, also are applicable to the step of analyzing and handling in the aforementioned individual carried device.
Fig. 8 is illustrated in and carries out the flow chart that sensing device shows in the electrocardiogram automatic analysing apparatus.
Enter main menu (S101) after the start, options is described as follows:
(1) input current patient information and file management (S200)
(2) read in electrocardiosignal (S300) from individual wearable device
After entering this selection, sensing device is waited for the playback signal of carried device;
(3) Treatment Analysis electrocardiosignal (S400)
After entering this selection, sensing device begins the analyzing and processing electrocardiosignal, the result who above screen, shows initially treated 6 seconds ECG signals, the middle part shows electrocardiosignal length pending and that handled, the heart of partial analysis is clapped the cycle in the display process process of bottom;
(4) the ARR result of display analysis (S500)
After entering this selection, show the number that patient information, total heart umber of beats and the analyzable unusual heart are clapped on the screen.Can show corresponding by shooting analysis; A result is all arranged in every bat, and implication is as follows:
Sick class-mark shows the disease class
0 N is normal
1 ARYSTO stops fighting
2 MIS leak and fight
3 T (ACHY) overrun
4 B (RASY) are slow excessively
5 S (SVPC) boundary premature beat
6 A (PC) room early
7 V (PC) chamber early
8 V0 insert premature beat
9 V1 premature ventricular beat
10 V2 premature ventricular beat
11 OT RonT
12 V3 are paired or the chamber is fast
13 BL atrioventricular blocks
14-noise/unusual heart is clapped
Quiver in F chambers 15
16 * self studies
(5) show ST, T analysis result (S600)
After entering this options, show patient information on the screen, whether information such as RR, PR, QRS, QT and QTc and RR, QRS, PR, ST and T ripple differentiate the result normally, the rectangular histogram that can also show items such as HR, QRS, PR, ST and T ripple, above-mentioned parameter is a meansigma methods, can also when needed the content on the screen in the procedure for displaying be copied on the printer;
(6) printout ecg wave form (S700)
Enter and to retouch out patient information and similar Electrocardiographic ecg wave form by printer by printer after this selects.Can set ecg wave form X-axis unit is 40ms/mm, and y axle unit is 1mV/cm (it is extreme to be folded to standard electric);
Unprocessed as electrocardiosignal, printing be original waveform, otherwise be the waveform after ripple filter is handled.
Referring to Fig. 9, show relevant " input patient information and file management " (S200) flow process of subprogram.Entering this submenu (S201) afterwards, options has:
(1) input new patient's information (S202)
Computer auto arrangement patient sequence number, new patient of every input, sequence number adds 1 automatically.Automatically show current time, date, import patient's name, sex and age in this step.
(2) look back chronic illness people's information (S203)
Here screen appearance " OLD ", the existing patient's sequence number of prompting input, as import correctly, then shielding upward shows the information such as time that this patient's name, sex, age, case are set up; Patient as input does not exist, prompting " NEW " on the screen, and expression need be re-entered sequence number.
(3) carry out diskette backup (S204) with regard to the patient information data
Here screen prompt input need backup the rising of patient information, end sequence number, to finish backup operation.
(4) the patient information data is returned to (S205) the hard disk from floppy disk
(5) format new building (S206)
Generally when backing up, all need earlier through this step with a floppy disk;
(6) return main menu (S207)
Figure 10 illustrates the mastery routine that the ECG signal is handled.Program is from step S400, through initialization of variable (S401) with get such as 6 seconds ECG and carry out self study (S402) with after the normal sinus rhythm of learning the experimenter, enters ECG Signal Pretreatment step (S403).In this step, utilize formula
[H(e )[=-cosnω+ 2cos(n-1)ω+5cos(n-2)ω+2]/8 y(n)=[-x(n)+2x(n-1)+5x(n-2)+4x(n-3) +5x(n-4)+2x(n-5)-x(n-6)]/16
Wherein establish-the 3dB point is 28Hz ,-20dB stopband is 47-53Hz; Fs=200Hz, i.e. low pass and 50Hz band resistance unites two into one, and electrocardiosignal is carried out filtering and baseline calibration, makes baseline stretching, eliminates the 50Hz power frequency and disturbs and noise.
Program enters follow-up step to each Feature Extraction of ECG signal then, and promptly order enters the step that the QRS wave group detects (S404), the detection of P ripple (S405), ST section, T wave analysis (S406), so that obtain the result of final analytical parameters.
Figure 11 illustrates the subprogram of the detection step (S404) of QRs wave group, and its formula is:
y(n)=|△1+△2+△3+△4|/4 △k=x(n+k)-x(n-k) k=1,2,3,4 | H ( e jω ) | = 8 sin 5 2 ω · cos ω · cos ω 2
At first detect the Fujian value and calculate and make counter O reset at step S4041.Enter step S4042, judged whether that the R ripple detects.At this, at first the ECG signal is carried out differentiate, form threshold value then, promptly 6 seconds ECG signals are divided into 11 sections, the maximum of finding out every section averages, and obtains a meansigma methods ave, compares with every section maximum and this ave value, more big person then is no QRS wave group for the QRS wave group is arranged than little person.To there be the maximum of the section of QRS wave group to do on average to obtain the mean deviation score value th of QRS wave group; 7/16 and 3,/16 two Fujian as detection QRS wave group with the th value are worth th respectively -bAnd th -rIf be judged as not at step S4042, promptly do not detect the R ripple, program enters step S4043, makes enumerator add 1, and difference value returns step S4042 more then with the value of cutting off from, and carries out the R ripple again and detects judgement.If be judged as in this step be, promptly have the R ripple to detect, program advances to step S4044, seeks single order and second differnce maximum, makes the threshold value renewal.Detect the QRS wave group at this absolute value with derivative.When continuous 2 derivatives during greater than vexed value.Be judged to be a new QRS wave group and occur, with average RR ask the phase 5/12 as separation, leading portion employing th -bBack segment adopts th -r
Whenever detect a QRS wave group and all upgrade threshold value conditionally. th - r ( new ) = th - r ( old ) · 3 4 + aym / 16 th - r ( new ) = th - r ( old ) · 3 4 + aym / 8
Aym is the maximum of 140msmw before and after the QRS wave group test point.
Update condition is (aym>th -b) and [(aym<3th -b) or (continuous 4 not renewals)].After the S wave direction, shield the next QRS wave group of 260ms continuation search then, and calculate the RR interval.
Next, program advances to step by S4045, carries out the location of Q ripple starting point.Here aym/9 is limited to 4 down as the location threshold value of Q ripple starting.
Move back 80ms from the test point of each QRS wave group, search for Q ripple starting point backward, up to continuous 2 derivative absolute values all greater than threshold value.Program is carried out QRS wave group terminal point location at step S4046.Adopt the second dervative method here, the steps include:
(1) ECG is asked second dervative;
(2), get the threshold value th of ayd/8 as location QRS wave group terminal point with asking the same method of th to ask the maximum ayd of second dervative -s, as the big (aym>3th of waveform -b), then get ayd/10 as th -s, be limited to 3 down.
(3) jump 130ms backward from QRS wave group test point.
(4) from after search forward, in 100ms, utilize absolute value that follow-up 3 second orders cause greater than th -sLocate QRS wave group terminal point.
(5) ask the width of QRS wave group.
Then, program advances to step S4047 and S4048, and QRS wave group main pole and noise are differentiated.
Wherein, so finish for the polar differentiation of QRS wave group master (S4047): (1) is that reference point is found out the peaked position of amplitude with Q ripple starting point between QRS wave group starting point and terminal point; (2) amplitude maximum place range value is compared with the range value at Q ripple starting point place, the former greater than the latter then polarity for just; Otherwise polarity is for negative.The differentiation of noise then comprises: if the absolute value of the difference of QRS wave group starting point and terminal point amplitude, think then that this claps greater than half of QRS peak value and be noise, do not carry out ARR analysis.
The step S405 (see figure 10) that is used for the detection of P ripple in the program adopts area-method to finish.Its computing formula is:
ss(k-1)=|x(i-1)-x(i-1-1)|
ss(k)=|x(i+1+1)-x(i+2+1)|
s=ss(k-1)+ss(k)+s
k=k+2
When S was amassed on the P corrugated greater than threshold value, as a P ripple object undetermined, the area maximum was the P ripple.
The step (S406) of T ripple shown in Figure 10 and ST piecewise analysis is then so carried out, that is:
For the T wave crest point, determine at QRS ripple terminal point to amplitude maximum place between the T ripple terminal point;
T ripple terminal point then is: QT=0.391g (RR+0.07).
As for the calculating of ST segment endpoint, suppose that at first ST is straight line and parabola:
f 1=a 1x+b 1 f 2=a 2x 2+b 2+c 2
Use straight line and fitting of parabola ST section and the ST terminal point curve to the T wave crest point respectively, getting the error reckling is end product, the error least squares error, and match point is chosen from Se to Tp successively.
Figure 12 shows the subprogram that shows arrhythmia result (S500).At initialization of variable (S501) afterwards,, read the parameter and the patient information of ECG processing signals, parameter value is averaged calculating, to get rid of accidental unexpected factor affecting at step S502 and S503.At step S504 institute's parameters calculated value is carried out the differentiation of arrhythmia type.Differentiate flow process referring to " the sick class differentiation routine " shown in Figure 13.Its criterion is:
The arrhythmia criterion
1. stop to fight: (sick several numbers 1)
RR interval>3 second
2. leak fight (comprising second degree A-V block) (sick class-mark 2)
The RR interval be average RR interval 1.9-2.1 doubly
3. tachycardia (sick class-mark 3)
The RR interval that continuous 5 hearts are clapped less than 3/7 second or
Instantaneous average heart rate is greater than the value of setting
4. bradycardia (sick class-mark 4)
The RR interval that continuous 4 hearts are clapped is greater than 1.5 seconds, or
Instantaneous average heart rate is less than the value of setting
5. ventricular premature contraction (sick class-mark 7)
(1) i-1 claps QRS>0.12S
(2) i-2 claps QRS<0.12S
(3) i-1 claps QRS in advance
(5) i claps QRS<0.12S
Above condition with, think that then it is a single-shot ventricular premature contraction that i-1 claps
6. artrial premature beat (sick class-mark 6)
(1) i-1 claps P ripple (R ripple) in advance
(2) i, i-1, i-2 clap QRS<0.12S
(3) i claps undercompensation
Three conditions and establishment think that then it is an artrial premature beat that i-1 claps
7. junctional premature beat (sick class-mark 5)
(1) i, i-1, i-2 clap the QRS width less than 0.12S
(2) i-1 claps P ripple (R ripple) in advance
(3) i claps full remuneration
Three conditions and establishment think that then it is a junctional premature beat that i-1 claps
8. interpolated premature beat (sick class-mark 8)
(1) i-1 claps QRS>0.12S
(2) i-2, i clap QRS<0.12S
(3) i-1 claps the R ripple in advance
(4) i claps does not have the amortization period
Four conditions and establishment think that then i-1 is an interpolated premature beat
9. paired ventricular premature contraction (sick class-mark 12)
(1)i-1、i-2 QRS>0.12S
(2) i-3, i clap QRS<0.12S
(3) i-1, i-2 clap in advance
Three conditions think then that with establishment it is paired ventricular premature contraction that i-1, i-2 clap
10. ventricular tachycardia (sick class-mark 12)
(1) i, i-1, i-2 clap QRS>0.12S
(2) i, i-1, i-2 clap in advance
Two conditions are then thought and ventricular tachycardia occurs with setting up
11. ventricular bigeminy (sick class-mark 9)
(1) i-1, i-3 two clap the QRS wave group in advance
(2) i, i-2 two clap full remuneration
(3) i-1, i-3 two clap QRS>0.12S
(4) i, i-2, i-4 clap QRS width<0.12S
Four conditions and establishment are then thought a premature ventricular beat to have occurred
12. chamber property premature ventricular beat (sick class-mark 10)
(1) i-1, i-4 two clap the QRS wave group in advance
(2) i, i-3 two clap full remuneration
(3) QRS>0.12S of i-1, i-4 two bats
(4) i, i-2, i-3, i-5, each QRS<0.12S that claps of i-6
Four conditions and establishment are then thought a premature ventricular beat to have occurred
(13.RonT sick class-mark 11)
(1) HR<60bpm and RR<1/3 second
(2) 5/12 of HR>60bpm and RR<average RR
Two conditions mutually or set up and think then that i-1 claps and be RonT
14. quiver in the chamber (sick class-mark 15)
(1) ECG oscillating waveform number of times>150 time/minute
(2) waveform width>0.18s
(3) i, i-1 clap and satisfy (1) (2)
(4) among i-2, i-3, the i-4 broadening phenomenon is arranged
Four conditions and establishment think that then the chamber of appearance quivers
15. the chamber of taking place frequently early: (nothing)
Per minute chamber number morning is greater than 5 or setting value
16. noise (sick class-mark 14)
Referring to QRS wave group test section
The normal heart is clapped and is sick class-mark 0
Above discrimination result shows at step S505, provides arrhythmia analysis report as shown in figure 15.Wherein export a comprehensive statistical result.At step S506, provide the result of corresponding every bat, as shown in figure 16, wherein indicate the heart bat for individual carried device or electrocardiogram automaton analysis self study of asterisk " * ", and " V " expression single-shot chamber is early unusual, " N " represents normal heart bat.
Figure 14 shows the subprogram that shows ST, T analysis result (S600).This flow process has provided the rectangular histogram result that ECG ST, T analyze.At initialization of variable (S601) afterwards, sense analysis result and patient information (S602).Then to various parameters, comprise that ECG parameters such as HR, PR, QRS, ST calculate (S603), at step S604 patient information and various ECG parameter are shown, provide HR-RR-ST-T analysis report as shown in figure 17.In step 605, judge whether to withdraw from, if, then to finishing S609; Or for otherwise read options button (S607), and then the rectangular histogram of carrying out each parameter (HR, PR, QRS or ST, T ripple or the like ECG parameter) is described (S608), make as Figure 18 (HR rectangular histogram), Figure 19 (QRS interval rectangular histogram), Figure 20 (ST section rectangular histogram), and each ECG parameter histogram of Figure 21 (T ripple rectangular histogram).And then return step S605 and judge, until withdraw from be identified till.
At last, this analytical equipment electrocardiogram (S700) of writing down of printout as shown in figure 22 also.
Utilize Worn type superminiature heart protecting system of the present invention; patient and relatives thereof and doctor can understand the health status of patient's heart intuitively; at any time write down electrocardiosignal; the feasible past not only patient but also the doctor anomalous ecg that also is difficult to catch can in time be fought and grasped; and the analysis careful to electrocardiosignal is provided, provides full and accurate evidence with reliably for the doctor makes clinical diagnosis accurately.
In order to understand the advantage that difference between the present invention and the existing cardiac monitoring machine and heart protecting system of the present invention are had better; in table 1 performance of the present invention and several traditional electrocardiograph is done one below and compare intuitively, beating and colluding " √ " part is all performance projects of this machine:
Table 1
The kind item compared Common electrocardiograph 24 hours dynamic electrocardiogram machines Type ECG monitor on hand Full-automatic miniature heart-monitoring emergency instrument This machine
Volume (mm 3) >400×300× 200 >150×80× 40 >143×68× 40 >119×75× 29 <40 * 40 * 20 (individual carried devices
Weight (g) >2000 >500 >230 >135 <50
Wearing recorder can report to the police automatically to heart rate
Wearing recorder can report to the police to arrhythmia
Wearing recorder can report to the police to PR-QRS-ST-T
Terminal can be painted electrocardiogram
Terminal can automatic diagnosis show the report of printing arrhythmia
Table 1 (continuing)
The kind item compared Common electrocardiograph 24 hours dynamic electrocardiogram machines Type ECG monitor on hand The aroused in interest dirty monitoring emergency instrument of miniature full order This machine
Terminal can show and prints PR-QRS-ST-T trendgram
Ecg wave form is made diagnosis unusually
The artificial intelligence software is arranged, can discern the P.Q.R.S.T. terminal automatically
Have and to wear recorder
Wear the service time (hour h) after the battery charge of recorder >24h >20h >50h >500h
Electrocardiogram in the time of can catching patient at any time and fall ill
Do not write down and need not to paste electroplax on the seasonal disease person
The ECG II-leading meets international standard
Subminiaturization of the present invention, intelligentized wearing type superminiature heart protecting system; fundamentally solved and when the heart patient falls ill, in time caught and write down its Electrocardiographic difficult problem; the electrode that adds adopting international standards of the present invention leads; for different cardiopathic diagnosis provides really, has the clinical diagnosis data of comparability, this is very valuable.It make coronary heart disease can early diagnosis, the early treatment, and patient can obtain best disposal when falling ill and instructs.
Though abovely heart protecting system of the present invention is described in conjunction with embodiments of the invention; those skilled in the art should be able to understand; do not leaving within the present invention and the described claims institute restricted portion; can make various modifications to the present invention, they all are included among design of the present invention and the scheme.

Claims (33)

1. a cardioelectric monitor, transmission and automatical analysis system comprise: cardioelectric monitor device (1), electrocardio transmitting device (2) and ecg analysis device (3); Wherein, cardioelectric monitor device (1) is used for the human heart signal of telecommunication is carried out tracking and monitoring, real time record, anomalous discrimination and warning; Electrocardio transmitting device (2) is used for the signal of cardioelectric monitor device (1) record is passed to ecg analysis device (3); Ecg analysis device (3) is used for being further processed to the received signal and analyzing, and provides rectangular histogram, arrhythmia analysis report and the HR-PR-ST-T analysis report of relevant EGC parameter variation tendency, and this system is further characterized in that:
Described cardioelectric monitor device (1) and ecg analysis device (3) include a low pass and the 50Hz band hinders the wave filter that unites two into one, and its characteristic function is:
|H(e )|=[-cos3ω+2cos2ω+5cosω+2]/8
y(n)=[-x(n)+2x(n-1)+5x(n-2)+4x(n-3)+5x(n-4)+2x(n-5)-x(n-6)]/16
Wherein, f s=200Hz ,-3dB point is 28Hz ,-20dB stopband is 47~53Hz.
2. according to cardioelectric monitor, transmission and the automatical analysis system of claim 1, it is characterized in that: described cardioelectric monitor device (1) comprises at least 3 electrocardio sensing electrodes.
3. according to cardioelectric monitor, transmission and the automatical analysis system of claim 1, it is characterized in that: described cardioelectric monitor device (1) and ecg analysis device (3) include a QRS wave group checkout gear, and the function of this device is:
| H ( e jω ) | = 8 sin 5 2 ω · cos ω · cos ω 2
y(n)=|△1+△2+△3+△4|/4
△K=x(n+k)-x(n-k)(k=1,2,3,4)
4. according to cardioelectric monitor, transmission and the automatical analysis system of claim 1, it is characterized in that: described cardioelectric monitor device (1) and ecg analysis device (3) include a P ripple checkout gear.
5. according to cardioelectric monitor, transmission and the automatical analysis system of claim 1, it is characterized in that: described cardioelectric monitor device (1) and ecg analysis device (3) include a ST piecewise analysis device and T wave analysis device.
6. according to cardioelectric monitor, transmission and the automatical analysis system of claim 1, it is characterized in that: described cardioelectric monitor device (1) comprises a unusual heart bat discriminating gear.
7. according to cardioelectric monitor, transmission and the automatical analysis system of claim 6, it is characterized in that: the wherein said unusual heart is clapped discriminating gear and is further comprised a unusual RR interval discriminating gear.
8. according to cardioelectric monitor, transmission and the automatical analysis system of claim 6, it is characterized in that: the wherein said unusual heart is clapped discriminating gear and is further comprised an abnormal Q RS width discriminating gear.
9. according to cardioelectric monitor, transmission and the automatical analysis system of claim 6, it is characterized in that: the wherein said unusual heart is clapped discriminating gear and is further comprised unusual ST section discriminating gear.
10. according to cardioelectric monitor, transmission and the automatical analysis system of claim 6, it is characterized in that: the wherein said unusual heart is clapped discriminating gear and is further comprised the abnormality T wave discriminating gear.
11. cardioelectric monitor, transmission and automatical analysis system according to claim 6 is characterized in that: the described unusual heart is clapped discriminating gear and is further comprised a P ripple anomalous discrimination device.
12. cardioelectric monitor, transmission and automatical analysis system according to claim 1 is characterized in that: described cardioelectric monitor device (1) further comprises the device that the result according to described anomalous discrimination reports to the police.
13. cardioelectric monitor, transmission and automatical analysis system according to claim 12 is characterized in that: described alarm device comprises a red green display lamp.
14. cardioelectric monitor, transmission and automatical analysis system according to claim 12 or 13 is characterized in that: described alarm device comprises a buzzer.
15. according to any cardioelectric monitor, transmission and automatical analysis system among the claim 1-12, it is characterized in that: described cardioelectric monitor device (1) is made into the necklace that a band weighs down in shape, very 3 of wherein said electrocardios, be placed on the necklace with certain spacing, when this device was worn on the front, heart electrode met the ECG standard lead of generally acknowledging in the world in the position of chest.
16. cardioelectric monitor, transmission and automatical analysis system according to claim 1 is characterized in that: described cardioelectric monitor device (1) further comprises an infrared transmitter, described electrocardio transmitting device (2) comprises an infrared remote receiver.
17. cardioelectric monitor, transmission and automatical analysis system according to claim 16, it is characterized in that: described electrocardio transmitting device (2) further comprises a data set, it can will pass to long-range ecg analysis device (3) by linking to each other with public telephone network from the signal of cardioelectric monitor device (1).
18. cardioelectric monitor, transmission and automatical analysis system according to claim 16 is characterized in that: described electrocardio transmitting device (2) further comprises a radio transmitter, described ecg analysis device (3) comprises a radio receiver.
19. cardioelectric monitor, transmission and automatical analysis system according to claim 1 is characterized in that: described ecg analysis device (3) comprises an arrhythmia discriminating gear.
20. cardioelectric monitor, transmission and automatical analysis system according to claim 19 is characterized in that: described arrhythmia discriminating gear comprises stop fighting discriminating gear and leakage discriminating gear of fighting.
21. cardioelectric monitor, transmission and automatical analysis system according to claim 19 is characterized in that: described arrhythmia discriminating gear comprises a tachycardia discriminating gear and a bradycardia discriminating gear.
22. cardioelectric monitor, transmission and automatical analysis system according to claim 19, it is characterized in that: described arrhythmia discriminating gear comprises a premature beat discriminating gear, it further comprises: ventricular premature contraction discriminating gear, artrial premature beat discriminating gear, junctional premature beat discriminating gear, interpolated premature beat discriminating gear, paired ventricular premature contraction discriminating gear and the ventricular premature contraction discriminating gear that takes place frequently.
23. cardioelectric monitor, transmission and automatical analysis system according to claim 19 is characterized in that: described arrhythmia discriminating gear further comprises the ventricular tachycardia discriminating gear.
24. cardioelectric monitor, transmission and automatical analysis system according to claim 19 is characterized in that: described arrhythmia discriminating gear further comprises ventricular bigeminy discriminating gear and chamber property premature ventricular beat discriminating gear.
25. cardioelectric monitor, transmission and automatical analysis system according to claim 19 is characterized in that: described arrhythmia discriminating gear further comprises the RonT discriminating gear.
26. cardioelectric monitor, transmission and automatical analysis system according to claim 19 is characterized in that: further described arrhythmia discriminating gear quivers discriminating gear in the chamber of comprising.
27. cardioelectric monitor, transmission and automatical analysis system according to claim 19 is characterized in that: described arrhythmia discriminating gear further comprises the noise discriminating gear.
28. cardioelectric monitor, transmission and automatical analysis system according to claim 19 is characterized in that: described ecg analysis device (3) further comprises the device that prints the arrhythmia analysis report according to described arrhythmia discrimination result.
29. cardioelectric monitor, transmission and automatical analysis system according to claim 19 is characterized in that: described ecg analysis device (3) further comprises according to described arrhythmia discrimination result, provides the device of HR-PR-ST-T analysis report.
30. cardioelectric monitor, transmission and automatical analysis system according to claim 19 is characterized in that: described ecg analysis device (3) further comprises and provides HR rectangular histogram, QRS rectangular histogram, P-R rectangular histogram, ST section rectangular histogram, the histogrammic device of T ripple respectively.
31. cardioelectric monitor, transmission and automatical analysis system according to claim 19 is characterized in that: described ecg analysis device (3) further comprises the device that prints standard cardioelectric figure curve.
32. an individual Worn type cardioelectric monitor, record and alarm device, comprise heart electrode, amplifier, wave filter, single chip microcomputer, memorizer and indicator, it is characterized in that: further comprise the wave filter that the normal resistance of a low pass and 50Hz unites two into one, the function of this wave filter is:
|H(e )|[-cos3ω+2cosω+5cosω+2]/8
y(n)=[-x(n)+2x(n-1)+5x(n-2)+4x(n-3)+5x(n-4)+2x(n-5)-x(n-6)]/16
33. the device according to claim 32 is characterized in that: further comprise a QRS wave group checkout gear, its function is:
y(n)=|△1+△2+△3+△4|/4
△k=x(n+k)-x(n-k),(k=1,2,3,4)
| H ( e jω ) | = 8 sin 5 2 ω · cos ω · cos ω 2
CN94104951A 1994-04-14 1994-04-14 Wearing type superminiature heart protecting system and method Expired - Fee Related CN1063624C (en)

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AU73441/94A AU7344194A (en) 1994-04-14 1994-08-05 A small-sized wearable system and method for heart protection
PCT/CN1994/000060 WO1995028128A1 (en) 1994-04-14 1994-08-05 A small-sized wearable system and method for heart protection

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CN113116360A (en) * 2019-12-30 2021-07-16 石家庄以岭药业股份有限公司 Portable data acquisition unit
CN111134658B (en) * 2020-01-17 2022-05-17 上海乐普云智科技股份有限公司 Method and device for detecting RonT type heart beat in electrocardiosignal
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