CN202568229U - Two-section type cloud computing sphygmomanometer - Google Patents

Abstract

The utility model discloses a two-section type cloud computing sphygmomanometer which comprises a sphygmomanometer terminal and a cloud computing server, wherein the sphygmomanometer terminal and the cloud computing server are connected with each other; the sphygmomanometer terminal 1 comprises a motor and an air pump which are connected with each other; the air pump is used for aerating a fixed belt; a pressure sensor is arranged at the fixed belt; the pressure sensor is connected with a data compressing module through an A/D converter and a filter module in turn; the data compressing module is connected with a data transmission module; the sphygmomanometer terminal further comprises a data receiving module; the cloud computing server comprises a baseline filter module, a band-pass filtering module, a fuzzy abnormal judging module, a curve fitting module, a user characteristic information reading module, an oscillography judging module, a secondary judging module, an intelligent medical advice module and a sending module which are connected sequentially; the data transmission module is connected with the baseline filter module; and the sending module is connected with the data receiving module. A high-strength digital signal treating algorithm is adopted by the cloud computing server, so that a measuring result is more accurate and stable.

Description

A kind of two-part cloud computing sphygomanometer

Technical field

This utility model relates to a kind of two-part cloud computing sphygomanometer of built-in wireless transport module.

Background technology

The measurement of blood pressure can obtain pressure value through conduit being inserted in the blood vessel by pressure transducer through directly realizing that with indirect two kinds of methods direct method is that the wound measuring method is arranged.Indirect method is the non-invasive measurement method, obtains pressure value through relevant characteristic signal is carried out analyzing and processing.

At present, the method for noninvasive blood pressure measurement mainly contains auscultation based on the Ke Shi sound, oscillographic method, Palpation, ultrasonic method etc.At present, sphygomanometer product on most markets all is based on oscillographic method.The oscillographic method blood pressure measurement, through motor and air pump to being worn on cuff on user's arm/wrist and inflating and pressurize, and in this process, through pressure transducer to the pressure in the cuff gather, filtering and judgement, thereby draw blood pressure measurement.And a typical electronic sphygomanometer, the common blood pressure signal analyzing and processing function of accomplishing core by its built-in single-chip microcomputer.This framework, though simple and convenient,, but there is the problem that can't overcome as follows:

(1) disposal ability of SCM system itself and storage capacity are all very limited; Such as; The built-in single-chip microcomputer dominant frequency of typical commercially available sphygomanometer product is about 16MHz, and memorizer is about the 2k byte, and flash is about the 32k byte; This big limitations the complexity of blood pressure Processing Algorithm, restricted the application of high-end Digital Signal Processing.

(2) because the storage capacity of SCM system is limited, so blood pressure measurement must carry out according to the data of this collection, and can't carry out correlation analysis to same user's historical data, thereby restricted the stability of measurement result.

(3) since SCM system limited in one's ability therefore can only accomplish simple numerical computations, and can't go out to meet user's diagnostic message according to information analysiss such as patient age, medical history, the situation of taking medicine, affiliated crowds.

Summary of the invention

Goal of the invention: the purpose of this utility model is to overcome the deficiency at existing sphygomanometer terminal; Provide a kind of mobile phone that adopts as the novel sphygomanometer of the cloud computing of intermediate node terminal, thereby proposed a kind of blood pressure measurement device of future generation that has powerful operational capability and memory space.

In order to solve the problems of the technologies described above, this utility model has adopted following technical scheme:

A kind of two-part cloud computing sphygomanometer; It comprises interconnected sphygomanometer terminal and cloud computing server; Wherein, described sphygomanometer terminal 1 comprises interconnected motor and air pump, and air pump is the fixing band inflation; The fixing band place is provided with pressure transducer, and pressure transducer links to each other with data compressing module through A/D converter, filtration module successively; Data compressing module links to each other with data transmission module; Described sphygomanometer terminal also comprises data reception module; Described cloud computing server comprises baseline filtration module, bandpass filtering modules block, fuzzy unusual judging module, curve fitting module, user's characteristic information read module, oscillography judging module, secondary judging module, intelligent doctor's advice module and the sending module that connects successively; Wherein, the baseline filtration module is used for the direct current and the low-frequency component of filtering blood pressure original waveform, guarantees that baseline is smooth, is beneficial to further signal processing; Too high and low excessively spectrum component in the further filtered signal of bandpass filtering modules block is to suppress low frequency wonder and High-frequency Interference; Fuzzy abnormity point judging module based on fuzzy logic, is adjudicated the definitiveness of each peak valley point, to remove unusual bad point; The peak point line that curve fitting module will be removed after the abnormity point carries out curve fitting, so that next step judgement; User characteristics decision threshold in the user's characteristic information read module reading database is so that judgement; The user characteristics thresholding that the oscillographic method judging module utilizes curve and the back after the match to read carries out the blood pressure judgement according to oscillographic method; The secondary judging module is carried out the secondary auxiliary judgement according to historical surveying record; Intelligence doctor's advice module is carried out curvilinear trend and threshold analysis according to this and historical measurement result, draws doctor's advice according to intelligent algorithm; Sending module will be measured the mobile phone end that blood pressure result and doctor's advice are sent to the user; Data transmission module is communicated by letter with the baseline filtration module; Sending module links to each other with data reception module.

Wherein, described sphygomanometer terminal is connected through wireless or wired mode with cloud computing server.

Beneficial effect: this utility model is compared existing ordinary electronic sphygomanometer and had the following advantages: (1) cloud computing server has used high-intensity digital signal processing algorithm, makes measurement result more accurately with stable.(2) cloud computing server has carried out critical-path analysis to user's history measurement, and measurement result is more stable.(3) cloud computing server combines multiple information such as user's patient age, medical history, the situation of taking medicine, affiliated crowd to provide intelligent diagnostics information, measures to have more meaning.(4) system architecture of two-part with respect to the syllogic cloud computing sphygomanometer that uses mobile phone or router as intermediate node, is operated easylier, is more suitable for this novel blood pressure terminal popularizing in person in middle and old age user.

Description of drawings

Fig. 1 is the structural representation of this utility model.

The specific embodiment:

Below in conjunction with accompanying drawing this utility model is done explanation further.

As shown in Figure 1, a kind of two-part cloud computing sphygomanometer of this utility model comprises interconnected sphygomanometer terminal 1 and cloud computing server 2.Wherein, Described sphygomanometer terminal 1 comprises interconnected motor 11 and air pump 12; Air pump 12 is fixing band 13 inflations, and fixing band 13 places are provided with pressure transducer 14, and pressure transducer 14 links to each other with data compressing module 17 through A/D converter 15, filtration module 16 successively; Data compressing module 17 links to each other with data transmission module 18.Described sphygomanometer terminal 1 also comprises the data reception module 19 of the result that receives cloud computing server 2.Described fixing band 13 can be wrist strap or arm band.

Wherein, described cloud computing server 2 comprise successively the baseline filtration module 21 that connects, bandpass filtering modules block 22, fuzzy unusual judging module 23, curve fitting module 24, user's characteristic information read module 25, based on the oscillography judging module 26 of characteristic, based on the secondary judging module 27 of historical data, based on the intelligent doctor's advice module 28 and the sending module 29 of composite information.

Data transmission module 18 is communicated by letter with baseline filtration module 21; Sending module 29 links to each other with data reception module 19, and data reception module 19 receives cloud computing server 2 and passes after the result of coming, and on sphygomanometer terminal 1, shows.

Wherein, baseline filtration module 21: direct current and low-frequency component in the filtering blood pressure original waveform, guarantee that baseline is smooth, be beneficial to further signal processing; Bandpass filtering modules block 22: the too high and low excessively spectrum component in the further filtered signal, to suppress low frequency wonder and High-frequency Interference; Fuzzy abnormity point judging module 23: based on fuzzy logic, the definitiveness of each peak valley point is adjudicated, to remove unusual bad point; Curve fitting module 24: the peak point line that will remove after the abnormity point carries out curve fitting, so that next step judgement; User's characteristic information read module 25: the user characteristics decision threshold in the reading database, so that judgement; Oscillographic method judging module 26: the user characteristics thresholding that utilizes curve and back after the match to read, carry out the blood pressure judgement according to oscillographic method; Secondary judging module 27: carry out the secondary auxiliary judgement according to historical surveying record; Intelligence doctor's advice module 28: carry out curvilinear trend and threshold analysis according to this and historical measurement result, draw doctor's advice according to intelligent algorithm; Sending module 29: will measure the mobile phone end that blood pressure result and doctor's advice are sent to the user.

Described sphygomanometer terminal 1 can be connected through various wireless or wired modes with cloud computing server 2.For example various forms of data transfer modes are supported in wireless connections, include but not limited to the connection of 3G wireless data, 4G wireless connections, WIFI wireless connections such as the connection of GSM/GPRS wireless data, CDMA2000/WCDMA/TD-SCDMA.Equally, also can support various cable network connected modes.

This product comprises wrist formula terminal and arm-type terminal, for the sake of simplicity, is that example describes with arm-type blood pressure terminal below.

When use begins, select and the sizeable cuff of testee upper-arm circumference.Cuff air bag middle part is positioned over the top (attention cuff edge is not rolled in order to avoid cuff plays tourniquet) of upper arm brachial artery.Cuff is strapped on the testee arm, through wired or wireless mode sphygomanometer terminal 1 is matched with smart mobile phone and be connected, operation sphygomanometer terminal or mobile phone begin to measure; In the measuring process; The sphygomanometer terminal utilizes motor 11 and 12 pairs of arm bands of air pump to inflate, and the force value in 14 pairs of arm bands of pressure transducer is sampled, and through A/D converter 15 it is carried out digitized; Sampled value behind the digitized; Carry out simple Filtering Processing by sphygomanometer terminal 1 built-in filtration module 16, data are carried out data compression after 17 pairs of filtering of data compressing module, and the data after will compressing are sent to cloud computing server 2 through radio data network.21 pairs of data of baseline filtration module in the cloud computing server 2 are carried out digital baseline Filtering Processing; 22 pairs of filtered data of baseline of bandpass filtering modules block are carried out bandpass filtering treatment; Information behind fuzzy 23 pairs of bandpass filterings of abnormity point judging module is carried out the abnormity point decision process based on fuzzy logic; 24 pairs of information of curve fitting module are carried out waveform fitting; User's characteristic information read module 25 reads user characteristic data, and oscillographic method judging module 26 is adjudicated blood pressure measurement based on oscillographic method according to user's characteristic information; Secondary judging module 27 combines same user's historical data and this preliminary ruling result to carry out the secondary judgement, draws more stable final measurement; Intelligence doctor's advice module 28 is according to this blood pressure measurement of user and long-term blood pressure trend, and combines multiple information such as user's patient age, medical history, the situation of taking medicine, affiliated crowd to provide intelligent diagnostics information; Measurement result and intelligent diagnostics information are sent to mobile phone by sending module 29, and cell phone software shows measurement result, thereby accomplishes whole measuring process through literal, figure, sound.

The cloud computing server 2 of this utility model has high-intensity digital signal processing algorithm; And can combine in the past that measurement data draws more stable measurement result, the intelligent diagnostics suggestion that goes out according to multiple information analysiss such as patient age, medical history, the situation of taking medicine, affiliated crowds.

This utility model adopts the distributed treatment of two-part, accomplishes at sphygomanometer terminal and cloud computing server respectively.The blood pressure signal analyzing and processing of this two-part with the powerful calculating ability of benefiting from far-end cloud computing center, thereby can provide more accurately, stable result and abundant more measurement feedback information; Simultaneously; Compare as the syllogic cloud computing sphygomanometer of intermediate node with adopting mobile phone, this utility model has saved this intermediate node of mobile phone, has greatly simplified the software operation step in the measuring process; Really accomplished the one-key operation test, be more suitable for using in the old people.In this utility model, the built-in single-chip microcomputer of sphygomanometer only need be accomplished preliminary treatment signals collecting, Signal Compression and transfer of data; The cloud computing center is after receiving the data that sphygomanometer transmits; To carry out combinative analysis to this blood-pressure measurement data and historical measurement data in the past; And carry out blood pressure through the higher intelligent algorithm of complexity and adjudicate; After obtaining the result, the center will be sent to the sphygomanometer terminal to blood pressure measurement and auxiliary artificial intelligence's doctor's advice together, present to the user by the sphygomanometer terminal through the mode of literal, figure or sound.The important meaning of this utility model is; Through the powerful date processing and the mining ability at cloud computing center, more high accuracy and stable blood pressure measurement are provided, simultaneously; Intelligent doctor's advice function through the cloud computing center; Each measurement to the user all gives automatic scoring and detailed guiding opinion, thereby makes user's blood pressure tracking treatment clearer and more definite, and the interface is friendly more.At last,, on occupation mode, really accomplished the i.e. usefulness of a key though this utility model has used cloud computing as technological core, simple and convenient, user and backstage computing are shielded fully.Greatly facilitate this emerging technology of cloud computing sphygomanometer popularizing in person in middle and old age's sphygomanometer user.

The above only is the preferred implementation of this utility model; Should be pointed out that for those skilled in the art, under the prerequisite that does not break away from this utility model principle; Can also make some improvement and retouching, these improvement and retouching also should be regarded as the protection domain of this utility model.

Claims (2)

1. two-part cloud computing sphygomanometer; It is characterized in that: it comprises interconnected sphygomanometer terminal (1) and cloud computing server (2); Wherein, described sphygomanometer terminal (1) comprises interconnected motor (11) and air pump (12), and air pump (12) is fixing band (13) inflation; Fixing band (13) locates to be provided with pressure transducer (14), and pressure transducer (14) links to each other with data compressing module (17) through A/D converter (15), filtration module (16) successively; Data compressing module (17) links to each other with data transmission module (18); Described sphygomanometer terminal (1) also comprises data reception module (19);

(2 comprise baseline filtration module (21), bandpass filtering modules block (22), fuzzy unusual judging module (23), curve fitting module (24), user's characteristic information read module (25), oscillography judging module (26), secondary judging module (27), intelligent doctor's advice module (28) and the sending module (29) that connects successively to described cloud computing server;

Wherein, baseline filtration module (21) is used for the direct current and the low-frequency component of filtering blood pressure original waveform, guarantees that baseline is smooth, is beneficial to further signal processing; Bandpass filtering modules block (22): the too high and low excessively spectrum component in the further filtered signal, to suppress low frequency wonder and High-frequency Interference; Fuzzy abnormity point judging module (23): based on fuzzy logic, the definitiveness of each peak valley point is adjudicated, to remove unusual bad point; Curve fitting module (24): the peak point line that will remove after the abnormity point carries out curve fitting, so that next step judgement; User's characteristic information read module (25): the user characteristics decision threshold in the reading database, so that judgement; Oscillographic method judging module (26): the user characteristics thresholding that utilizes curve and back after the match to read, carry out the blood pressure judgement according to oscillographic method; Secondary judging module (27): carry out the secondary auxiliary judgement according to historical surveying record; Intelligence doctor's advice module (28): carry out curvilinear trend and threshold analysis according to this and historical measurement result, draw doctor's advice according to intelligent algorithm; Sending module (29): will measure the mobile phone end that blood pressure result and doctor's advice are sent to the user;

Data transmission module (18) is communicated by letter with baseline filtration module (21); Sending module (29) links to each other with data reception module (19).

2. a kind of two-part cloud computing sphygomanometer according to claim 1 is characterized in that: described sphygomanometer terminal (1) is connected through wireless or wired mode with cloud computing server (2).

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