CN212630755U - Remote medical monitoring and rescuing platform - Google Patents

Abstract

The utility model discloses a telemedicine monitoring succour platform, it includes: the user server is used for monitoring the cardiovascular function of the user and feeding back monitoring data to the remote monitoring center; the doctor server is used for receiving the data transmitted by the remote monitoring center and feeding back suggestions to the user side through the remote monitoring center; and the remote monitoring center is used for connecting the user server and the doctor server to realize information interaction between the user server and the doctor server. The utility model discloses use remote monitoring center as the basis, realize the contact between user service end and the doctor service end, simultaneously, carry out the record to user's relevant data archives and put on records, on the one hand, realize the 24 hours incessant monitoring to the user through user service end, guarantee monitoring data's integrality and monitoring effect, on the other hand, user data all feeds back to remote monitoring center, gives the guidance suggestion after doctor service end looks up data.

Description

Remote medical monitoring and rescuing platform

Technical Field

The utility model belongs to the technical field of medical science detects, specific theory indicates a telemedicine monitoring succour platform.

Background

The heart and blood vessels form an organic circulation system of the human body, and the heart performs orderly alternate contraction and relaxation activities along with the continuous excitation of the heart and muscle electricity. An Electrocardiogram (ECG) is a record of the variation of electrical signals of cardiac muscle transmitted to the skin surface of a human body, and blood is continuously injected into an artery from the heart and returned to the heart from a vein during the ordered alternating contraction and relaxation activities of the heart. Once the heart contracts, the pressure in the artery fluctuates periodically, which in turn causes the vascular fluctuation of the artery (carotid artery, brachial artery, radial artery, ankle artery, etc.), called arterial pulse wave; the electrocardiosignals and the pulse signals contain rich human body physiological and pathological information, and various physiological and pathological information is extracted from the pressure and waveform changes of pulse waves in both traditional Chinese medicine pulse diagnosis and western medicine cardiovascular disease examination.

According to statistics, the number of cardiovascular disease patients in China is at least 2.3 hundred million, and 2 of 10 adults are cardiovascular disease patients; 300 million people die of cardiovascular diseases every year in China; with the increasing aging of population structure in China, more and more old people suffer from chronic diseases such as hypertension, coronary heart disease, cardiovascular diseases and the like. And the cardiovascular morbidity age is in a youth trend, and particularly the number of deaths in young adults 35-54 years is increased most rapidly. Cardiovascular disease has become the first major condition that endangers human health, which the world health organization lists as a killer that seriously endangers human health in the 21 st century.

The direct medical cost for cardiovascular diseases reaches 1300 billion yuan every year in China, and the cardiovascular diseases have high morbidity, high disability rate and high fatality rate, which cause great unfortunate problems for families and bring unreasonable economic burden and mental burden.

At present, existing cardiovascular detection and diagnosis instruments and equipment in the market are various, and the technology is mature. However, hospital equipment is bulky, complex to operate, expensive, generally applicable only to medical diagnosis, and not applicable to individuals to perform long-term, real-time, dynamic monitoring.

On the other hand, the existing remote electrocardiogram monitoring equipment can only carry out single detection on electrocardiogram information and cannot carry out comprehensive analysis by combining with the cardiac hemodynamic parameters. Therefore, a miniaturized and multi-parameter complete service system which can effectively monitor pulse and electrocardio synchronously and dynamically for 24 hours and can realize real-time contact and interaction among a remote control center, a doctor expert team and a user by being connected with a powerful background support system through remote wireless communication and the Internet is urgently needed in the market.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome above-mentioned problem, provide a synchronous dynamic monitoring of miniature multi-parameter based on the watch and dock with powerful backstage support system through long-range wireless communication and internet, realize the long-range medical treatment monitoring succour platform of real-time contact and interdynamic between remote control center, doctor expert team and the user.

The purpose of the utility model is realized through the following technical scheme:

a telemedicine monitoring rescue platform comprising:

the user server is used for monitoring the cardiovascular function of the user and feeding back monitoring data to the remote monitoring center;

the doctor server is used for receiving the data transmitted by the remote monitoring center and feeding back suggestions to the user side through the remote monitoring center;

the remote monitoring center is used for connecting the user server and the doctor server to realize information interaction between the user server and the doctor server;

further, the user service end is a wristwatch type miniature monitoring device, which comprises: the wristwatch comprises a wristwatch body, a watchband, a central processing unit, a data storage management module, a man-machine interaction module, a positioning module, a local alarm module, a data transmission module, a pulse signal processing circuit, an electrocardiosignal monitoring module and a power management module, wherein the wristwatch body and the watchband are integrated on the wristwatch body; the wristwatch main body is also provided with a plurality of external connection ports for connecting external connection detection equipment, and a signal processing circuit for signal processing is arranged in the wristwatch main body; and the watchband is provided with a pulse wave sensor connected with the pulse signal processing circuit.

Further, the remote monitoring center includes:

the database server is used for providing data storage and calling service;

the query management server is used for providing doctor service and user remote data query service;

the data analysis calling server is used for consulting services and informing the assistant users to solve emergencies;

the data communication server is used for realizing data communication between the user server and the doctor server and the database server;

and the data processing server is used for processing the received human body sign data of the user server.

Furthermore, the electrocardiosignal monitoring module comprises an electrocardiosignal collector interface lead and an electrocardiosignal processing circuit connected with the electrocardiosignal collector interface lead and used for processing collected signals, and the output of the electrocardiosignal processing circuit is connected with the central processing unit.

Furthermore, the pulse wave sensor comprises a piezoelectric material transduction piece with an electrode lead, a shell and a silica gel filling layer; the shell is located piezoelectric material transduction piece downside and with piezoelectric material transduction piece combination constitutes sealed resonant cavity, the silica gel filling layer is located piezoelectric material transduction piece upside.

Furthermore, the human-computer interaction module comprises a capacitive screen input module and a display module.

Further, the positioning module employs an AGPS positioning system.

Furthermore, the local alarm module is an audible and visual alarm device.

Further, the external connection port comprises one or more of a blood oxygen saturation probe interface, a blood glucose test paper interface, a temperature sensor interface and an attitude sensor interface.

Compared with the prior art, the utility model, still have following advantage and beneficial effect:

(1) the utility model discloses well remote monitoring center, user service end and customer service end realize remote communication, and the monitoring data real-time transmission of user side to remote monitoring center, doctor's service end can look up at any time and give medical advice feedback to user service end, from this realizes real-time contact and the interaction between doctor's expert team and the user.

(2) The utility model discloses user service end adopts the miniature monitoring devices of wristwatch formula to carry out 24 hours continuous monitoring pulse and cardiovascular health situation to the user, like wearing the wrist-watch, can monitor pulse and electrocardio 24 hours throughout the year under the prerequisite that does not influence user work, life completely. The pulse monitoring can flexibly set the acquisition frequency according to the health condition requirements of the user, and the wristwatch can automatically acquire and send data even if the user sleeps.

(3) The utility model discloses realize pulse signal and electrocardiosignal collection and synchronous display, overcome current long-range electrocardio guardianship equipment effectively and can only carry out the single detection of electrocardio information, can't combine heart blood flow dynamics parameter to carry out integrated analysis.

(4) Through the utility model discloses long-term effectual human sign's data acquisition constitutes the big data of health data, does comprehensive analysis, operation to health data, can play good disease prevention effect, benefits the society.

(5) The utility model discloses when the device acquireed user's health abnormal signal, can acousto-optic warning remind user oneself or its relatives and friends to save oneself, can send alarm signal to remote control center through the backstage simultaneously, in time provide professional help by long-range doctor expert team, can win valuable "gold rescue time" for patient's rescue.

Drawings

Fig. 1 is a schematic block diagram of the middle wristwatch type miniature monitoring device of the present invention.

Fig. 2 is a schematic block diagram of the remote monitoring system of the present invention.

Fig. 3 is the schematic diagram of the collection, processing and transmission of the data information of the present invention.

Fig. 4 is a side view of the pulse wave sensor of the present invention.

Fig. 5 is a top view of the pulse wave sensor of the present invention.

Wherein, the names corresponding to the reference numbers are as follows: the system comprises a 1-blood oxygen saturation probe interface, a 2-blood glucose test paper interface, a 3-temperature sensor interface, a 4-attitude sensor interface, a 5-pulse wave sensor, a 6-three-lead electrocardio vest, a 7-operational amplifier, an 8-filter, a 9-central processor, a 10-display module, a 11-data storage management module, a 12-remote monitoring center, a 51-sealed resonant cavity, a 52-piezoelectric material transducer, a 53-shell, a 54-silica gel filling layer and a 55-electrode lead.

Detailed Description

Example 1

As shown in fig. 1 to 5, this embodiment provides a remote medical monitoring and rescue platform, the system is based on a remote monitoring center, and the system implements the contact between a user service end and a doctor service end, and records related data files of a user, on one hand, the user service end implements 24-hour uninterrupted monitoring on the user, and ensures the integrity and monitoring effect of the monitored data, on the other hand, the user data is fed back to the remote monitoring center, and the doctor service end looks up the data and then gives guidance suggestions, and in addition, the user establishes files in the remote monitoring center, and all the body health data of the user during the monitoring process are stored in the remote monitoring center, thereby forming big data of the body health data, comprehensively analyzing and calculating the body health data, and playing a good disease prevention effect.

And the user server is mainly used for monitoring the cardiovascular function of the user and feeding back monitoring data to the remote monitoring center. In this embodiment, a wristwatch type micro monitoring device is used as a user server for monitoring human health data, and the wristwatch type micro monitoring device is structurally composed of: the wristwatch comprises a wristwatch body, a watchband, a central processing unit, a data storage management module, a man-machine interaction module, a positioning module, a local alarm module, a data transmission module, a pulse signal processing circuit, an electrocardiosignal monitoring module and a power management module, wherein the wristwatch body and the watchband are integrated on the wristwatch body; the wristwatch main body is also provided with a plurality of external connection ports for connecting external connection detection equipment, and a signal processing circuit for signal processing is arranged in the wristwatch main body; and the watchband is provided with a pulse wave sensor connected with the pulse signal processing circuit. Through the arrangement, the miniaturized multi-parametric monitoring device for the human body monitoring device is realized, the device such as a wristwatch can be worn on the wrist of the human body, the normal life of a user is not influenced, and compared with the defects of large size, complex operation and the like of the traditional medical monitoring device, the device has remarkable beneficial effects.

In this embodiment, the wristwatch body adopts a regular geometric solid shape, for example: cube, cuboid, cylinder etc. and the user can select according to own hobby. The band is adapted to the wristwatch body, and may be a conventional band structure such as a retractable band and a snap-in band, and is not particularly limited herein. The wristwatch main body is integrated with a plurality of functional modules for realizing the dynamic monitoring function of the wristwatch, aiming at the defect of single monitoring of the traditional monitoring device, the wristwatch main body is integrated with a pulse monitoring function and an electrocardiosignal monitoring function which are respectively realized by a pulse signal processing circuit and an electrocardiosignal monitoring module, wherein the pulse signal processing circuit is matched with the pulse wave sensor for use, the electrocardiosignal monitoring module mainly comprises an electrocardiosignal collector interface lead and an electrocardiosignal processing circuit which is connected with the electrocardiosignal collector interface lead and is used for processing collected signals, wherein, electrocardiosignal processing circuit's output connection central processing unit, electrocardiosignal monitoring module passes through electrocardiosignal collector interface lead wire and connects three electrocardio undershirts that lead, and this embodiment adopts above-mentioned structure to realize the collection of pulse wave information and electrocardiosignal, and its advantage is as follows:

1. the pulse wave sensor is used for signal acquisition, the pulse wave signal processing circuit mainly comprises an operational amplifier and a filter, and signals are amplified and then filtered and then output to the central processing unit. In the embodiment, the pulse wave sensor comprises a piezoelectric material transduction piece with an electrode lead, a shell and a silica gel filling layer; the shell is located piezoelectric material transducing piece downside constitutes sealed resonant cavity with piezoelectric material transducing piece combination, and the silica gel filling layer is located piezoelectric material transducing piece upside, wherein, the material of shell does not do the special limitation, generally adopts plastics to make. When the pulse wave sensor is worn, the pulse wave sensor is located at the radial artery of the wrist, when the electric material transducer piece is subjected to fluctuating radial artery pulsating pressure, the changed pressure (for a single point, the fact is that the system does reciprocating elastic vibration at a certain point, and the quantized index refers to the acceleration of the system) correspondingly generated on the surface of the piezoelectric material transducer piece is obtained according to the principle of Q-kF and F-ma, so that simple Q-kma (wherein k is a piezoelectric constant, m is the whole vibration mass of the system, and a is the index of the elastic vibration in the electric quantization refers to the acceleration of the system) is generated, so that electric charges corresponding to the magnitude of the acting force are accurately generated, and then the pulse wave sensor is amplified and filtered through the electric charge amplifier, so that pulse signals are accurately reflected. The unique design of the pulse wave sensor in the embodiment gives full play to the advantages of the piezoelectric material, effectively filters out clutter, and obtains a stable and reliable pulse signal with high sensitivity and small interference, thereby effectively overcoming the defects of large volume, low sensitivity, poor anti-interference capability and the like of the existing pulse wave sensor. The sensor can clearly collect the clean undistorted pulse wave of hundreds of millivolts without amplification.

2. The electrocardio signal is collected by matching the three-lead electrocardio vest with the electrocardio signal monitoring module. The human body cells have electrical activity, so that the normal beating of the heart can be checked according to the electrical activity, and the influence factors of the beating of the heart can be indirectly measured. The electrocardiogram refers to a graph (called ECG for short) in which the heart is excited by a pace-making point, an atrium and a ventricle in each cardiac cycle, and various forms of potential changes are led out from the body surface through an electrocardiogram recorder along with the changes of bioelectricity of the electrocardiogram. The electrocardiogram is an objective index of the process of occurrence, transmission and recovery of cardiac excitation. The tissue and body fluid around the heart can conduct electricity, so that the human body can be regarded as a volume conductor with three-dimensional space of length, width and thickness. The heart is similar to a power supply, the sum of action potential changes of countless myocardial cells can be transmitted to and reflected on the body surface, and potential differences exist among a plurality of points on the body surface. The recording electrodes of the electrocardiograph are placed at any two non-isoelectric parts of the body surface, the images of the electrocardiographic changes can be recorded, the measuring method is called bipolar lead, the measured potential changes are the algebraic sum of the potential changes of two points on the body surface, and the waveform analysis is complex. If one tries to keep one of the two measuring electrodes, usually the one connected to the negative terminal of the trace, at a constant potential of zero, it becomes a so-called "indifferent electrode", while the other measuring electrode is placed at a certain measuring point on the body surface, as a "probe electrode", this measurement method is called a unipolar lead. Since the irrelevant electrode always keeps the zero potential unchanged, the measured potential change only represents the potential change of the position where the probing electrode is located, and the waveform is relatively simple to explain. At present, when an electrocardiogram is clinically checked, both unipolar leads and bipolar leads are used, but the measurement precision is poor and the operation is difficult, in the embodiment, 3-12 leads are adopted to synchronously acquire data, and the electrode connection method of the three-lead electrocardiogram vest comprises the following steps: the first lead (abbreviation i), right arm (-), left arm (+); a second lead (abbreviation ii), right arm (-), left foot (+); the third lead (abbreviated as III), left arm (-), left foot (+). The limb leads of the electrocardiogram have diagnostic significance for heart rhythmic diseases. The utility model adopts the above-mentioned setting to reach the actual effect of effective reduction clutter when simplifying electrocardio collection operation step, obtain sensitivity height, interference little, the heart electrograph waveform that has diagnostic meaning. The electrocardiosignal processing circuit comprises an operational amplifier and a filter, wherein the signals are amplified and then filtered, and then are output to a central processing unit.

A man-machine interaction module is integrated on the wristwatch main body and mainly comprises a capacitive screen input module and a display module, preferably a high-definition TFT display module. Pulse wave signal and electrocardiosignal transmit to central processing unit after the collection is handled, then handle such as digital filtering, and the data storage behind the data is in data storage management module (FLASH memory and SD card memory are selected in data storage), and the two carries out waveform display and index parameter display in step on the display module on the one hand, and its advantage lies in: the heart flows to the terminal of limbs along arterial blood vessel from contracting to blood flow, has a time difference that the conduction lags behind, adopts the utility model discloses with the process of heart work and the process of blood flow motion synchronous display in a coordinate system, its precision is enough for the doctor to diagnose and interpret, helps discovering cardiovascular anomaly as early as possible.

In this embodiment, the central processing unit is an ARM32 bit single chip microcomputer, and the model is: STM32ZET6, which is mainly responsible for waveforms, algorithms, data file storage management, data transfer control, human-machine interface session management, etc. And the data transmission module is used for realizing data communication with the remote monitoring center based on a 3G/4G module TCP/IP protocol and the like and transmitting the data information acquired by the user server to the remote monitoring center. The power management module is mainly used for supplying power to the equipment, and an existing conventional power supply is selected, which is not particularly limited herein.

In this embodiment, the user server further has the following functions: the diagnosis and treatment scheme report/download, the real-time monitoring data report, including electrocardiogram, pulse wave diagram, other indexes/download, and the patient symptom self-statement record/upload. Besides the wristwatch type miniature monitoring device, the user server can also be matched with a conventional intelligent terminal for use, such as: the mobile phone, the computer and the like, which download client software to realize corresponding functions after registration in remote monitoring.

In this embodiment, the remote monitoring center includes: the database server is used for providing data storage and calling service; the query management server is used for providing doctor service and user remote data query service; the data analysis calling server is used for consulting services and informing the assistant users to solve emergencies; the data communication server is used for realizing data communication between the user server and the doctor server and the database server; and the data processing server is used for processing the received human body sign data of the user server. The remote monitoring system also has the following functions: managing patient files, storing patient medical record data, security certification, group agency management, doctor registration management, service registration management, uploading and downloading web services (patient services).

The doctor server can select the existing intelligent terminal such as a mobile phone, a computer, a tablet computer and the like. The intelligent terminal registers after downloading corresponding software. The realizable functions are as follows: the method comprises the steps of inquiring patient identity, inquiring archives, inquiring monitoring data and graphs, analyzing collected data of patients in months of weeks/appointed time, and obtaining early symptoms of some sudden diseases of users, health intervention guidance suggestions given by corresponding symptoms, telephone guidance service records, intervention means effect records, diagnosis and treatment scheme reports and the like.

In this embodiment, a method for implementing a remote medical monitoring and rescue platform includes:

(1) establishing a user profile in a remote monitoring center; matching the corresponding user file by the doctor server;

(2) monitoring data of a user body are collected through a user server, and the data are uploaded to a remote monitoring center through a data transmission module;

(3) the remote monitoring center processes the received data and stores the data for the inquiry of doctors and user service terminals;

(4) the doctor server calls user data through the remote monitoring center and gives guidance suggestions to be fed back to the remote monitoring center;

(5) the remote monitoring center transmits the guidance suggestions of the doctor to the user server, or stores the guidance suggestions of the doctor for the user server to look up.

Example 2

On the basis of embodiment 1, the remote medical monitoring and rescue platform provided in this embodiment further includes a positioning device, specifically, a positioning module is integrated on the wristwatch main body in the wristwatch type miniature monitoring device, and preferably, the positioning module employs an AGPS positioning system, which utilizes GPS and AGPS (assisted positioning) of a communication carrier, and base station position information, and utilizes a multipoint intersection principle to realize user indoor positioning. The user plane geographical position can be determined through the positioning module, and timely rescue after the user body is abnormal and loses self-rescue ability is facilitated. The work of the positioning module can be real-time work, and the user positioning position is transmitted to the remote monitoring center in real time, the power consumption of the mode is large, a person skilled in the art can also select an awakening type positioning mode, namely, in a normal state, the positioning module is in a dormant state, the low-power-consumption operation is realized, when the user monitoring data is abnormal (the data abnormity judgment is realized by setting a parameter index reference value), the central processing unit awakens the positioning module, the positioning module starts to work to realize the user position positioning, and then the user positioning data is transmitted to the remote monitoring center.

Example 3

On the basis of embodiment 1 or embodiment 2, the remote medical monitoring and rescue platform provided by this embodiment further includes a local alarm module, specifically, the local alarm module is integrated on the wristwatch main body in the wristwatch type miniature monitoring device, preferably, an audible and visual alarm device is adopted, when an abnormal signal of the body of the user is obtained, the audible and visual alarm can remind the user of self rescue or relatives and friends of the user, meanwhile, the central processing unit sends the alarm signal to the remote control center, professional rescue is timely provided by a remote doctor expert team, and precious gold rescue time can be won for rescue of the patient.

Example 4

On the basis of embodiment 1, this embodiment provides a further implementation method of a telemedicine monitoring and rescue platform: after receiving the uploaded data, the remote monitoring center compares the uploaded data with user file data or with human body normal state data, and when the data are abnormal, the following processing is carried out: (a) the remote monitoring center actively feeds back abnormal data to the doctor server; (b) the doctor server establishes real-time communication with the user server; (c) and the user server performs local sound-light alarm. The user file data is derived from the previous data acquisition, and the human body normal state data is derived from the medical health reference indexes corresponding to the basic conditions such as age, sex, height, weight and the like of the user.

Example 5

On the basis of embodiment 1, the telemedicine monitoring and rescuing platform provided by this embodiment further includes a plurality of external connection ports for connecting external connection detection devices, and a signal processing circuit for signal processing is disposed therein, wherein the signal processing circuit is mainly used for signal amplification and filtering. Preferably, the external connection port comprises one or more of a blood oxygen saturation probe interface, a blood glucose test strip interface, a temperature sensor interface and an attitude sensor interface. The external equipment corresponding to each interface is as follows: the oxyhemoglobin saturation probe interface is connected with an oxyhemoglobin saturation probe and is used for monitoring the oxyhemoglobin saturation data information of the human body; the blood glucose test paper interface is connected with blood glucose test paper and is used for monitoring blood glucose data information of a human body; the temperature sensor interface is connected with a temperature sensor and is used for monitoring the body temperature data information of the human body; the gesture sensor interface is connected with a gesture sensor which is used for monitoring gesture information data of a human body.

Example 6

On the basis of embodiment 1, the remote medical monitoring and rescue platform provided in this embodiment further includes a plurality of interfaces for transmitting data to the outside, that is, the wristwatch main body of the wristwatch type miniature monitoring device is provided with the interfaces, for example: RS232 interface, USB interface, etc. for transmitting data to pc and data server transmission system.

As described above, the utility model discloses alright fine realization. The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. A telemedicine monitoring and rescue platform, comprising:

the user server is used for monitoring the cardiovascular function of the user and feeding back monitoring data to the remote monitoring center;

the doctor server is used for receiving the data transmitted by the remote monitoring center and feeding back suggestions to the user side through the remote monitoring center;

the remote monitoring center is used for connecting the user server and the doctor server to realize information interaction between the user server and the doctor server;

the user service end is a wristwatch type miniature monitoring device, which comprises: the wristwatch comprises a wristwatch body, a watchband, a central processing unit, a data storage management module, a man-machine interaction module, a positioning module, a local alarm module, a data transmission module, a pulse signal processing circuit, an electrocardiosignal monitoring module and a power management module, wherein the wristwatch body and the watchband are integrated on the wristwatch body; the wristwatch main body is also provided with a plurality of external connection ports for connecting external connection detection equipment, and a signal processing circuit for signal processing is arranged in the wristwatch main body; and the watchband is provided with a pulse wave sensor connected with the pulse signal processing circuit.

2. The telemedicine monitoring and rescue platform of claim 1, wherein the remote monitoring center comprises:

the database server is used for providing data storage and calling service;

the query management server is used for providing doctor service and user remote data query service;

the data analysis calling server is used for consulting services and informing the assistant users to solve emergencies;

the data communication server is used for realizing data communication between the user server and the doctor server and the database server;

and the data processing server is used for processing the received human body sign data of the user server.

3. The telemedicine monitoring and rescue platform of claim 2, wherein the electrocardiosignal monitoring module comprises an electrocardiosignal collector interface lead and an electrocardiosignal processing circuit connected with the electrocardiosignal collector interface lead and used for processing collected signals, and the output of the electrocardiosignal processing circuit is connected with the central processing unit.

4. The telemedicine monitoring and rescue platform of claim 3, wherein the pulse wave sensor comprises a piezoelectric material transduction patch with electrode leads, a shell and a silica gel filling layer; the shell is located piezoelectric material transduction piece downside and with piezoelectric material transduction piece combination constitutes sealed resonant cavity, the silica gel filling layer is located piezoelectric material transduction piece upside.

5. The telemedicine monitoring and rescue platform of claim 4, wherein the human-computer interaction module comprises a capacitive screen input module and a display module.

6. The telemedicine monitoring and rescue platform of claim 5, wherein the positioning module employs an AGPS positioning system.

7. The telemedicine monitoring and rescue platform of claim 6, wherein the local alarm module is an audible and visual alarm.

8. The telemedicine monitoring rescue platform of claim 7, wherein the external interface comprises one or more of a blood oxygen saturation probe interface, a blood glucose test strip interface, a temperature sensor interface, an attitude sensor interface.

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