CN103445763A

CN103445763A - Epidermal-electronics-based health monitoring system

Info

Publication number: CN103445763A
Application number: CN2013103754684A
Authority: CN
Inventors: 黄永安; 尹周平; 文洲; 陈建魁; 刘慧敏; 熊有伦
Original assignee: Huazhong University of Science and Technology
Current assignee: Huazhong University of Science and Technology
Priority date: 2013-08-26
Filing date: 2013-08-26
Publication date: 2013-12-18
Anticipated expiration: 2033-08-26
Also published as: CN103445763B

Abstract

The invention discloses an epidermal-electronics-based health monitoring system, which comprises a sensing unit and a portable signal processing unit, wherein the sensing unit is in an epidermal electronic patch form, is adhered to the skin surface of a monitored object, and is used for acquiring and storing the physiological parameter data of the monitored object; the portable signal processing unit is in signal connection with the sensing unit, and is used for reading and displaying the physiological parameter data stored in the sensing unit, and giving an alarming prompt or calling for assistance when the physiological parameter data exceeds a preset threshold value. The invention also discloses other embodiments of the health monitoring system. According to the epidermal-electronics-based health monitoring system, various problems of a conventional wearable health monitoring system can be successfully solved; the epidermal-electronics-based health monitoring system has the advantages of low cost, convenience for control, real-time monitoring and carrying, high measurement accuracy, multipoint measurement and the like.

Description

A kind of health monitoring systems based on the epidermis electronics

Technical field

The invention belongs to field of medical, more specifically, relate to a kind of health monitoring systems based on the epidermis electronics.

Background technology

In medical application, the critical medical devices that health monitoring systems is relevant as monitoring of human health, the wearable health monitoring systems of developing for the object such as patient, old man, anemia of pregnant woman is more and more ripe, it be simple and easy to and portable and adopted by increasing people.In traditional Wearable monitor system, usually adopt the silicon pcb board as carrier, adopt rigidity sensor acquisition physiological parameter, with microprocessors such as single-chip microcomputer, ARM etc., processed, physiological parameter is recorded in the middle of the instrument internal memory and shows or report to the police and upload onto the server (as list of references: " research of wearable multiple physiological parameter monitoring system " the most at last, " Chinese medical equipment ", 23 11 phases of volume in 2008; " wearable real-time diagnosis, warning, mobile health monitoring system ", Academy of Military Medicine, PLA, Military Preventive Medicine specialty thesis for the doctorate 2008; " development of intelligent miniature myo-monitor ", " oral and maxillofacial reconstruction ", 01 phase in 2002).

Yet, further research shows, still there are many deficiencies in these Wearable health monitoring systems of the prior art: at first, all parts that traditional wearable health monitoring systems has comprised power supply, collection, processing, storage, demonstration, adopt silicon substrate and rigidity sensor and microcontroller as single-chip microcomputer, ARM etc., volume is large, Heavy Weight, and portability is not good; Secondly, due to sensor and the skin surface stickiness poor, acquired signal a little less than, cause follow-up operational amplification circuit huge, measure inaccurate and be not easy to dress; Finally, because manufacturing cost is higher, traditional wearable health monitoring systems popularity rate is not high, and has problems such as being difficult to popularization.

Summary of the invention

Above defect or Improvement requirement for prior art, the invention provides a kind of health monitoring systems based on the epidermis electronics, its purpose is to be set to by sensing unit the form of epidermis electronics paster, and in conjunction with application characteristic, its concrete structure and specification type are designed, correspondingly can successfully solve the existing variety of issue of traditional wearable health monitoring systems, and possess with low cost, be convenient to control and Real-Time Monitoring, easy to carry, and certainty of measurement is high and the advantages such as multimetering.

For achieving the above object, according to the present invention, provide a kind of health monitoring systems based on the epidermis electronics, this health monitoring systems comprises sensing unit and portable signal processing unit, it is characterized in that:

Described sensing unit presents the form of epidermis electronics paster, and it is bonded in the skin surface of monitoring target, for the physiological parameter data that gathers monitoring target and stored;

Described portable signal processing unit is connected with the sensing unit signal, for reading and showing the physiological parameter data that is stored in sensing unit, and, when physiological parameter data exceeds default threshold value, carries out alarm or calls out and assist.

As further preferably, this health monitoring systems also comprises the center monitors base station, and it is for receiving the physiological parameter data of portable signal processing unit, and carries out Real-Time Monitoring.

As further preferably, described sensing unit comprises flexible base, board, flexible sensing circuit layer, sealing coat and the protective layer that is positioned at outer field encapsulated layer and is successively set on encapsulated layer, wherein the flexible sensor circuit layer is carried on flexible base, board, for the physiological parameter data that gathers monitoring target and be converted into the corresponding signal of telecommunication and stored; Sealing coat is revealed or loss for the signal of telecommunication that prevents the flexible sensing circuit layer; Protective layer plays protection and supporting role to the flexible sensing circuit layer, avoids the impact of ambient pressure on circuit.

As further preferably, described flexible sensing circuit layer comprises power module, flexible sensor, signal processing module, flexible memory module, locating module and communication module, and wherein power module is used to other elements of flexible sensing circuit layer that working power is provided; Flexible sensor be used for the Real-time Collection monitoring target physiological parameter data and be converted into the corresponding signal of telecommunication; Signal processing module amplifies for the signal of telecommunication that flexible sensor is obtained and filtering and noise reduction is processed; Flexible memory module is for the data after signal processing are stored, in order to read for the portable signal processing unit; The residing position of monitoring target when locating module gathers physiological signal for determining at every turn is stored in this positional information in flexible memory module simultaneously; Communication module provides the interface that carries out communication with the portable signal processing unit, so that the portable signal processing unit reads the relevant information that reflects physiological parameter and position in flexible memory module.

As further preferably, all modules that form described flexible sensing circuit layer are flexible circuit, and adopt the electrostatic spinning mode directly to be prepared from described flexible base, board.

As further preferably, described power module is preferably radio source module, piezoelectricity self-charging module or flexible solar power module, and described communication module is preferably based on the communication module of bluetooth or RFID.

As further preferably, any in polydimethylsiloxane, methyl methacrylate, acrylonitrile, butadiene and styrene polymer of described flexible base, board forms; The material of described sealing coat is insulating polymer; The material of described protective layer is polyester form; The material of described encapsulated layer is rubber, such as ultra-thin elastic rubber.

As further preferably, described sensing unit is pasted on the skin surface of monitoring target by electrostatic force.

As further preferably, described portable signal processing unit comprises mobile phone, Ipad or notebook computer.

In general, the above technical scheme of conceiving by the present invention compared with prior art, mainly possesses following technological merit:

1, portability and real-time: native system is by the data acquisition and processing (DAP) display separation, traditional processes and displays task is transferred to common portable devices handle, the flexible sensor of manufacturing by new technology mainly is responsible for the collection of data and is kept in, whole like this epidermis electronic system is light, thin, little, increased portability, because people custom is carried portable equipment, therefore constant Real-time Collection and upload the physiological parameter data of needs;

2, pinpoint accuracy and multimetering: flexible sensor can directly fit tightly at human body surface, direct measuring-signal, flexible, can be under large motion large deformation condition, realize the continuous measurement of signal, measurement result is accurate, also can a plurality of collection points be set at human body and at different position of human body, paste the epidermis electronic system to realize a plurality of signals of acquisition and processing simultaneously;

3, cheap and easy-to-use: employing is easy to the flexible circuit of manufacturing fast and portable equipment commonly used comes processes and displays and uploading data by people, greatly reduce costs, the program simultaneously operated on portable equipment is the same with the ordinary procedure operation, is convenient to people and goes up rapidly hand operated.

The accompanying drawing explanation

Fig. 1 is the composition schematic diagram of the health monitoring systems constructed according to the preferred embodiment for the present invention;

Fig. 2 is the structural representation according to the sensing unit of the preferred embodiment of the present invention;

Fig. 3 is the viewgraph of cross-section along A-A ' line in Fig. 2;

Fig. 4 is the organigram according to the flexible sensing circuit layer of the preferred embodiment of the present invention;

Fig. 5 is for forming the ripple circuit diagram of flexible sensing circuit layer;

Fig. 6 be as exemplary for example, for the workflow diagram of the health monitoring systems of monitoring human pulse;

In institute's drawings attached, identical Reference numeral is used for meaning identical element or structure, wherein:

The flexible memory module 305-of 101-sensing unit 102-portable signal processing unit 103-center monitors base station 201-encapsulated layer 202-flexible base, board 203-flexible sensing circuit layer 204-sealing coat 205-protective layer 301-power module 302-flexible sensor 303-signal processing module 304-locating module 306-communication module

The specific embodiment

In order to make purpose of the present invention, technical scheme and advantage clearer, below in conjunction with drawings and Examples, the present invention is further elaborated.Should be appreciated that specific embodiment described herein, only in order to explain the present invention, is not intended to limit the present invention.In addition, below in each embodiment of described the present invention involved technical characterictic as long as form each other conflict, just can mutually not combine.

Fig. 1 is the composition schematic diagram according to the health monitoring systems of a preferred embodiment of the invention.As shown in fig. 1, should mainly comprise sensing unit 101 and portable signal processing unit 102 by the health monitoring systems based on the epidermis electronics, wherein sensing unit presents the form of epidermis electronics paster, it is bonded in the skin surface of monitoring target such as human body, for gathering the physiological parameter data (for example, body temperature, heart beating, blood pressure and brain wave etc.) of monitoring target and being stored; Portable signal processing unit 102 is connected with the sensing unit signal, for reading and showing the physiological parameter data that is stored in sensing unit, and, when physiological parameter data exceeds default threshold value, carries out alarm or calls out and assist.

Except above-mentioned ingredient, above-mentioned health monitoring systems preferably can also comprise center monitors base station 103, portable signal processing unit 102 uploads to center monitors base station 103 in real time by the physiological parameter data read, and the interval that portable signal processing unit 102 is uploaded can be configured such that user's manual operation or time reading out data process and upload uniformly-spaced automatically; Center monitors base station 103 operated by rotary motion are in medical centre; mainly to be formed by the large server main frame; be convenient to the physiological parameter data and the historical health condition that records everyone of each monitoring target of medical personnel's Real-Time Monitoring; and the measure that feeds back in time the current health of monitoring target and should take; for example when pulse is undesired or exceed normal range, can report to the police, and when weak and faint pulse or while stopping can reminding medical personnel's rescue that is on the scene the very first time.

According to a preferred embodiment of the present invention, as shown in Figures 2 and 3, described sensing unit 101 comprises flexible base, board 202, flexible sensing circuit layer 203, sealing coat 204 and the protective layer 205 that is positioned at outer field encapsulated layer 201 and is successively set on encapsulated layer 201, wherein flexible sensor circuit layer 203 is carried on flexible base, board 202, for the physiological parameter data that gathers monitoring target and be converted into the corresponding signal of telecommunication and stored; Sealing coat 204 is revealed or loss for the signal of telecommunication that prevents flexible sensing circuit layer 203; 205 of protective layers are protected and supporting role 203 of flexible sensing circuit layers, avoid the impact of ambient pressure on circuit.

Particularly, the material of encapsulated layer 201 can be selected rubber such as ultra-thin elastic rubber; Flexible base, board 202 is for carrying flexible circuit, and any in polydimethylsiloxane, methyl methacrylate, acrylonitrile, butadiene and styrene polymer of its material forms; The material of sealing coat 204 is insulating polymer, in order to prevent leakage or the loss of flexible sensing circuit layer 203 signals of telecommunication; The material of protective layer 205 can be selected polyester form etc., to 203 good protections of flexible sensing circuit layer and supporting role.

According to another preferred embodiment of the present invention, as shown in Figures 4 and 5, described flexible sensing circuit layer 203 comprises power module 301, flexible sensor 302, signal processing module 303, flexible memory module 304, locating module 305 and communication module 306, wherein power module 301 is used to other elements of flexible sensing circuit layer that working power is provided, and its concrete form is preferably radio source module, piezoelectricity self-charging module or flexible solar power module; Flexible sensor 302 be used for the Real-time Collection monitoring target physiological parameter data and be converted into the corresponding signal of telecommunication; Signal processing module 303 amplifies for the signal of telecommunication that flexible sensor 302 is obtained and filtering and noise reduction is processed; Flexible memory module 304 is stored for the data by after signal processing, in order to read for portable signal processing unit 102; Locating module 305 is for example the GPS locating module, and while for determining, gathering physiological signal, the residing particular location of monitoring target is stored in this positional information in flexible memory module 304 simultaneously at every turn; 306 of communication modules provide the interface that carries out communication with portable signal processing unit (102), it is for example the communication module based on bluetooth or RFID, so that portable signal processing unit 102 reads the relevant information that reflects physiological parameter and position in flexible memory module 304.

The health monitoring systems of monitoring human pulse of below take is further explained according to the workflow of health monitoring system of the present invention as example.As shown in Figure 6; the health monitoring systems of this monitoring human pulse comprises sensing unit 101, portable signal processing unit 102 and center monitors base station 103; wherein; the parts that form sensing unit 101 are followed successively by flexible base, board 202, flexible sensing circuit layer 203, sealing coat 204, protective layer 205 from bottom to top, their coated outside one deck encapsulated layer 201.And flexible sensing circuit layer 203 comprises power module 301, flexible sensor 302, signal processing module 303, flexible memory module 304, locating module 305 and communication module 306, wherein, power module 301 is the preferred flexible sun-generated electric power in the present embodiment, the preferred GPS locating module of locating module 305, the preferred bluetooth communication module of communication module 306.Portable set 102 is chosen commonly used and smart mobile phone easy to carry in the present embodiment.

This health monitoring systems work process is: the sensing unit 101 of corresponding monitoring pulse closely is attached to the human body wrist place, flexible solar power supply in flexible sensing circuit layer 203 is given other built-up circuit power supply, flexible sensor 302 gathers human pulse signal, via being stored in flexible memory module 304 after signal processing module 303 amplifiers, filtering, denoising, obtain current position by current GPS position module and also be stored in flexible memory module 304 more simultaneously; The program write in advance is installed on hand in intelligence, can read by the bluetooth communication module in flexible sensing circuit layer 203 thus current pulse data and position data and be uploaded to center monitors base station 103, also can be set to uniformly-spaced the time Real-time Collection and upload so that continue to monitor pulse, for the physiological parameter of current monitoring arranges normal range, can warning reminding when pulse is undesired or exceed normal range wearer, when weak and faint pulse or while stopping call out assigned number; In center monitors base station 103; but medical personnel are by everyone physiological parameter of monitoring system Real-Time Monitoring; monitoring system can be analyzed everyone physiological data of sending back; when pulse is undesired; when pulse is undesired or exceed normal range, can report to the police, when weak and faint pulse or while stopping can reminding medical personnel's rescue that is on the scene the very first time.

Those skilled in the art will readily understand; the foregoing is only preferred embodiment of the present invention; not in order to limit the present invention, all any modifications of doing within the spirit and principles in the present invention, be equal to and replace and improvement etc., within all should being included in protection scope of the present invention.

Claims

1. the health monitoring systems based on the epidermis electronics, this health monitoring systems comprises sensing unit (101) and portable signal processing unit (102), it is characterized in that:

Described sensing unit (101) presents the form of epidermis electronics paster, and it is bonded in the skin surface of monitoring target, for the physiological parameter data that gathers monitoring target and stored;

Described portable signal processing unit (102) is connected with sensing unit (101) signal, for reading and demonstration is stored in the physiological parameter data of sensing unit (101), and, when physiological parameter data exceeds default threshold value, carry out alarm or call out and assist.

2. the health monitoring systems based on the epidermis electronics as claimed in claim 1, it is characterized in that, this health monitoring systems also comprises center monitors base station (103), and it is for receiving the physiological parameter data of portable signal processing unit (102), and carries out Real-Time Monitoring.

3. the health monitoring systems based on the epidermis electronics as claimed in claim 1 or 2, it is characterized in that, described sensing unit (101) preferably includes flexible base, board (202), flexible sensing circuit layer (203), sealing coat (204) and the protective layer (205) that is positioned at outer field encapsulated layer (201) and is successively set on encapsulated layer (201), it is upper that wherein flexible sensor circuit layer (203) is carried on flexible base, board (202), for the physiological parameter data that gathers monitoring target and be converted into the corresponding signal of telecommunication and stored; Sealing coat (204) is revealed or loss for the signal of telecommunication that prevents flexible sensing circuit layer (203); Protective layer (205) plays protection and supporting role to flexible sensing circuit layer (203), avoids the impact of ambient pressure on circuit.

4. the health monitoring systems based on the epidermis electronics as claimed in claim 3, it is characterized in that: described flexible sensing circuit layer (203) preferably includes power module (301), flexible sensor (302), signal processing module (303), flexible memory module (304), locating module (305) and communication module (306), and wherein power module (301) is used to other elements of flexible sensing circuit layer that working power is provided; Flexible sensor (302) be used for the Real-time Collection monitoring target physiological parameter data and be converted into the corresponding signal of telecommunication; Signal processing module (303) amplifies for the signal of telecommunication that flexible sensor (302) is obtained and filtering and noise reduction is processed; Flexible memory module (304) is stored for the data by after signal processing, in order to read for portable signal processing unit (102); The residing position of monitoring target when locating module (305) gathers physiological signal for determining at every turn is stored in this positional information in flexible memory module (304) simultaneously; Communication module (306) provides the interface that carries out communication with portable signal processing unit (102), so that portable signal processing unit (102) reads the relevant information that reflects physiological parameter and position in flexible memory module (304).

5. the health monitoring systems based on the epidermis electronics as described as claim 3 or 4, it is characterized in that, the all modules that form described flexible sensing circuit layer (203) are flexible circuit, and adopt the electrostatic spinning mode directly to be prepared from described flexible base, board (202).

6. the health monitoring systems based on the epidermis electronics as claimed in claim 4, it is characterized in that, described power module (301) is preferably radio source module, piezoelectricity self-charging module or flexible solar power module, and described communication module (306) is preferably based on the communication module of bluetooth or RFID.

7. the health monitoring systems based on the epidermis electronics as described as claim 3-6 any one, it is characterized in that, any in polydimethylsiloxane, methyl methacrylate, acrylonitrile, butadiene and styrene polymer of described flexible base, board (202) forms; The material of described sealing coat (204) is insulating polymer; The material of described protective layer (205) is polyester form; The material of described encapsulated layer (201) is rubber.

8. the health monitoring systems based on the epidermis electronics as described as claim 1-7 any one, is characterized in that, described sensing unit (101) is pasted on the skin surface of monitoring target by electrostatic force.

9. the health monitoring systems based on the epidermis electronics according to claim 8, is characterized in that, described portable signal processing unit (102) comprises mobile phone, Ipad or notebook computer.