CN105852913A - Ovulation detecting system and ovulation detecting method therefor - Google Patents

Abstract

The invention discloses an ovulation detecting system and an ovulation detecting method therefor. The ovulation detecting system comprises an ovulation detecting device, a data receiving and displaying device, a cloud storage and big data analysis service terminal, wherein the ovulation detecting device comprises a controller, a test signal generator, a signal preprocessor, a wireless communication module and a temperature sensor, the test signal generator, the signal preprocessor, the wireless communication module and the temperature sensor are respectively connected to the controller, a signal that is transmitted by the test signal generator is transmitted to the signal preprocessor by means of a test signal receiver, and the data receiving and displaying device comprises another wireless communication module, a detection control calculation and result display module and a cloud-based communication module. According to the ovulation detecting system and the ovulation detecting method therefor disclosed by the invention, an equivalent model of complex impedance is employed, the equivalent model of complex impedance is an electrobiology model that can reflect body fluid more really manner than a pure resistance model; the ovulation detecting system has the advantages of small size and low power consumption, and is applicable to being carried around.

Description

A kind of ovulation tests system and detection method thereof

Technical field

The present invention relates to a kind of portable medical treatment device, especially relate to a kind of ovulation tests system and detection thereof Method.

Background technology

At present, grasping the most effective contraception and become pregnant method, the Precise detection of ovulation phase, to educating normally Age seems extremely important for women.Prediction determines the conventional method onset of ovulation: 1) basal body temperature method, Need to record body temperature every day, comparatively laborious, and easily caught a cold, fever, the impact of the factors such as air-conditioning, Prediction is caused to be lost efficacy.2) ratio Si Linfa, carrys out predicting ovulation by observe cervical mucus, and the method is only It is suitable for the women with menstruation rule.3) blood testing method, in being not suitable for family and monitors continuously.4) B ultrasonic detection ovarian follicle method, needs to use B ultrasonic instrument in hospital.5) resistance measurement based on Ohm's law, Electrode easily produces polarization, and electrode is relatively costly, and body fluid electrical model is equivalent to pure resistance model, neglects Omit capacitive reactance characteristic.The ovulation tests equipment produced based on above method on market, the record time is short, and It is easily lost.

Summary of the invention

For above the deficiencies in the prior art, the present invention provides a kind of ovulation tests system and detection side thereof Method, is a kind of intelligent and portable type ovulation tests based on complex impedance measurement system, and is aided with cloud storage with big Data analysis, its technical scheme is as described below:

A kind of ovulation tests system, including ovulation detecting device, data receiver display device, cloud storage with Big data analysis service end, described ovulation detecting device includes controller and the most coupled test Signal generator, signal preprocessor, wireless communication module, temperature sensor, described test signal is sent out The signal that raw device sends is sent to signal preprocessor through test signal receiver；Described data receiver shows Showing device includes that wireless communication module, detection control to calculate and result display module, high in the clouds communication module.

The physiology electric of oral cavity body fluid it is provided with between described measuring signal generator and test signal receiver Learn equivalent model, described electrophysiology equivalent model include after resistance and a capacitances in series again with another Electric capacity is in parallel, electrophysiology equivalent model two ends is provided with two electrodes and is connected with mouth cavity liquid.

Described wireless communication module uses bluetooth or wifi.

Being provided with the power module comprising rechargeable battery in described ovulation detecting device, described power module sets It is equipped with charging hole, for charging to rechargeable battery.

Electrode near measuring signal generator one end is positive rapier, near test signal receiver one end Electrode is negative rapier, and described positive rapier and negative rapier are metal material.

Ovulation tests method according to said system, comprises the following steps:

(1) described ovulation detecting device is placed in the oral cavity, and contacts with mouth cavity liquid, described number It is connected by the acquirement of wireless communication module and ovulation detecting device according to receiving and displaying device, and sends detection and refer to Order；

(2) controller of described ovulation detecting device receives detection instruction, controls measuring signal generator Send the sinusoidal test signal of CF, the test signal that described test signal receiver will receive Being sent to signal preprocessor, test signal is carried out discrete Fourier transform meter by described signal preprocessor Calculation obtains testing data；

(3) described controller receives detection instruction, controls temperature sensor measurement mouth cavity liquid simultaneously Temperature, obtains oral temperature test data；

(4) when test data, temperature test data and ovulation detecting device are dispatched from the factory by described controller Calibration data in calibration phase access is sent to data receiver display device, described data receiver display dress Put and the data of reception are carried out preliminary treatment be sent to cloud storage and calculate with big data analysis service end；

(5) described cloud storage stores, with big data analysis service end, the number that data receiver display device is sent According to, in conjunction with previous data, draw out the chart of reflection ovulation prediction result, return to described data receiver Display device shows.

Described ovulation detecting device is calibrated at calibration phase when dispatching from the factory, and comprises the following steps:

(1) described ovulation detecting device is vacant, and described data receiver display device passes through wireless telecommunications mould Block obtains with ovulation detecting device and is connected, and sends detection instruction；

(2) controller of described ovulation detecting device receives detection instruction, controls measuring signal generator Sending the sinusoidal test signal of CF, the signal received is sent by described test signal receiver To signal preprocessor, signal is carried out discrete Fourier transform and is calculated school by described signal preprocessor Quasi-data；

(3) calibration data is saved in internal storage by described controller.

The sinusoidal test signal of described CF is A*sin (2* π * f*t), and wherein, A is amplitude, F is selected frequency, and t is the time；The signal received is carried out discrete fourier by described signal preprocessor Transformation calculations obtains real part and imaginary part.

Described data receiver display device carries out preliminary treatment to temperature test data, calculates relative temperature system Number tf, tf=(t1-25) * 4/1000, t1 is temperature test data, revises finally according to temperature coefficient tf To complex impedance:

Impedence=(Impedence_x) * (1-tf)

Described Impedence_x is the complex impedance of mouth cavity liquid.

Described data receiver display device carries out preliminary treatment to test data, calculates according to calibration data The amplitude of ovulation detecting device alignment resistance, and test data calculate the range value of mouth cavity liquid, Thus obtain the complex impedance data of mouth cavity liquid.

Present invention have the advantage that 1) this detecting system use complex impedance equivalent model, ratio is simple Resistance model for prediction reflects the electrobiology model of body fluid more really；

2) this detecting system volume is little, low-power consumption, is suitable for carrying with；

3) this detecting system has ease for use, only need to place and pop one's head in oral cavity, click on mobile phone A PP On related key, just can get testing result；

4) this detecting system preserves all historical datas of user, does not loses because of device damage；

5) this detecting system can do big data analysis according to individual characteristic, it was predicted that accuracy rate high.

Accompanying drawing explanation

Fig. 1 is the structural representation of described ovulation tests system；

Fig. 2 is the outward appearance front schematic view of described ovulation detecting device；

Fig. 3 is the outward appearance schematic rear view of described ovulation detecting device；

Fig. 4 is cloud storage and big data analysis service end testing result figure in embodiment.

Detailed description of the invention

The invention belongs to the tracing detection to female ovulation situation and the technical field of algorithm prediction, particularly Based on complex impedance measurement technology, Bluetooth communication and big data analysis technique based on cloud storage is utilized to predict Female human onset of ovulation.

The operation principle of native system: the onset of ovulation and the change of hormonal readiness, shadow in non-onset of ovulation women blood Ring to the change of charged ion concentration in body fluid, and then cause saliva of buccal cavity change on electrology characteristic, By measuring women saliva of buccal cavity impedance (equivalent impedance model 7), thus obtain hormonal readiness in blood Change, add the temperature information of auxiliary, send into high in the clouds and be analyzed, finally measure the onset of ovulation, accurately Dope device for testing ovulation date.

As it is shown in figure 1, the present invention include ovulation detecting device 100, data receiver display device 200, Cloud storage and big data analysis service end 300.Wherein ovulation detecting device 100 includes that testing signal occurs Device 1, test signal receiver 2, signal preprocessor 3, bluetooth radio module 4, temperature sensor 5, Controller 6.Data receiver display device 200 includes that bluetooth radio module 13, detection control to calculate and knot Really display module 12, high in the clouds communication module 11.

Time actually used, data receiver display device 200 is to communicate with WIFI with bluetooth communication The smart mobile phone of module, uses APP application program in data receiver display device 200, and APP has Have detection control, impedance computation, result shows and with high in the clouds communication function, be detection control to calculate and Result display module 12.In ovulation detecting device 100, main functionality be impedance measurement, temperature survey, Signal Pretreatment and bluetooth radio module.Equivalent impedance model 7 is the electrical model of saliva of buccal cavity equivalence. Cloud storage is storage user data and big data analysis with the main functionality of big data analysis service end 300 Function.

As shown in Figure 2,3, described ovulation detecting device 100 in appearance design, including positive rapier 21, Negative rapier 35, temperature rapier 22, probe body 23, probe interface 24, elbow probe 25, elbow Main body 26, rotating elbow body 27, probe groove 28, equipment body 29, indicator lamp 30, the probe back of the body Face 31, the elbow back side 32, the main body back side 33, back side battery cover 34.

Described temperature rapier 22 is the outside setting of temperature sensor 5, described positive rapier 21 and negative rapier 35 as the measurement two ends of equivalent impedance model 7.

Described positive rapier 21 and negative rapier 35 use metal material, rounded, are arranged on ovulation tests dress Put on 100, and play sealing function, prevent saliva from entering inside device.

Power supply has been carried out upset and has been connected by described ovulation detecting device 100 with the measurement end being provided with probe Setting, and by probe interface 24, elbow probe 25, elbow main body 26, rotating elbow body 27 It is configured, is placed in probe groove 28 so that measurement end can overturn.

During use, first ovulation detecting device 100 is implemented to calibrate in the stage of dispatching from the factory:

Described ovulation detecting device is vacant, and the place of test does not contacts with any object；

Detection in data receiver display device 200 controls calculating and controls bluetooth with result display module 12 Wireless module 13 obtains with the bluetooth radio module 4 on ovulation detecting device 100 and is connected, and by indigo plant Tooth wireless module 4 sends instruction to controller 6.

Controller 6 receives instruction, controls measuring signal generator 1 and sends the sinusoidal wave test of CF Signal:

A*sin(2*π*f*t)

Wherein, A is amplitude, and f is selected frequency, and t is the time.

Test signal returns to test signal receiver 2 through a known calibrating resistance 8, tests signal The signal received is given signal preprocessor 3 and is made DFT (discrete Fourier transform) meter by receiver 2 Calculation obtains real part REAL_0 and imaginary part IMAG_0, the data that signal preprocessor 3 will process REAL_0 Yu IMAG_0 gives controller 6.

In the data (REAL_0 and IMAG_0) that 6 signal preprocessors 3 of controller are sent here are saved in In portion's memory.

Product is implemented in reality is tested:

Described ovulation detecting device is placed in the oral cavity, and contacts with mouth cavity liquid；

Detection in data receiver display device 200 controls calculating and controls bluetooth with result display module 12 Wireless module 11 obtains with the bluetooth radio module 4 on ovulation detecting device 100 and is connected, and by indigo plant Tooth wireless module 4 sends instruction to controller 6；

Controller 6 receives instruction, controls measuring signal generator 1 and sends the sinusoidal wave test of CF Signal:

A*sin(2*π*f*t)

Wherein, A is amplitude, and f is selected frequency, and t is the time.

Test signal returns to test signal receiver 2 through oral cavity juice, and test signal receiver 2 will The signal received is given signal preprocessor 3 and is DFT and is calculated real part REAL_x and imaginary part IMAG_x, data REAL_x processed are given controller with IMAG_x by signal preprocessor 3 6；

Controller 6 sends measurement request signal, temperature sensor 5 return port to temperature sensor 5 simultaneously Cavity temperature measurement result is to controller 6；

The data (REAL_x and IMAG_x) that 6 signal preprocessors 3 of controller are sent here, temperature passes Sensor 5 send temperature measuring data (t1), and calibration phase access data (REAL_0 with IMAG_0), it is sent to data receiver display device 200 by bluetooth radio module 4.

Detection in data receiver display device 200 controls to calculate and result display module 12 row of receiving Ovum detection device 100 sends the data of returning, and calculates the amplitude of calibrating resistance 8:

$MAG\_0=\sqrt{{(REAL\_0)}^2+{(IMAG\_0)}^2}$

Then the range value of mouth cavity liquid is calculated:

$MAG\_x=\sqrt{{(REAL\_x)}^2+{(IMAG\_x)}^2}$

Resistance value according to known calibration resistance 8 obtains the complex impedance of mouth cavity liquid:

Impedence_x=R0*MAG_x/MAD_0

And calculate relative temperature coefficient tf:

Tf=(t1-25) * 4/1000

Revise finally according to temperature coefficient tf and obtain complex impedance:

Impedence=(Impedence_x) * (1-tf)

And this calculating range value is uploaded to cloud storage with big with temperature value by high in the clouds communication module 11 Data analysis service end 300.

Cloud storage and big data analysis service end 300 store this measurement data, and combine previous data, Draw out the chart of reflection ovulation prediction result, return to the detection control in data receiver display device 200 System calculates and shows with result display module 12.As shown in Figure 4, it is cloud storage and big data analysis service The chart display schematic diagram of end 300 return, indicates the time of optimum pregnant period.

The present invention uses the equivalent model of complex impedance, reflects body fluid more really than simple Resistance model for prediction Electrobiology model；This detecting system volume is little, low-power consumption, is suitable for carrying with.

Claims (10)

1. an ovulation tests system, it is characterised in that: include that ovulation detecting device, data receiver are aobvious Showing device, cloud storage and big data analysis service end, described ovulation detecting device includes controller and difference Coupled measuring signal generator, signal preprocessor, wireless communication module, temperature sensor, The signal that described measuring signal generator sends is sent to signal preprocessor through test signal receiver； Described data receiver display device includes that wireless communication module, detection control to calculate and result display module, High in the clouds communication module.

Ovulation tests system the most according to claim 1, it is characterised in that: described test signal The electrophysiology equivalent model of oral cavity body fluid, described life it is provided with between generator and test signal receiver Reason electrical equivalent model is in parallel with another electric capacity, at physiology electric again after including resistance and a capacitances in series Equivalent model two ends are provided with two electrodes and are connected with mouth cavity liquid.

Ovulation tests system the most according to claim 1, it is characterised in that: described wireless telecommunications Module uses bluetooth or wifi.

Ovulation tests system the most according to claim 1, it is characterised in that: described ovulation tests Being provided with the power module comprising rechargeable battery in device, described power module is provided with charging hole, is used for Charge to rechargeable battery.

Ovulation tests system the most according to claim 2, it is characterised in that: near test signal The electrode of generator one end is positive rapier, and the electrode near test signal receiver one end is negative rapier, institute State positive rapier and negative rapier is metal material.

6., according to the arbitrary described ovulation tests method of claim 1-5, comprise the following steps:

(1) described ovulation detecting device is placed in the oral cavity, and contacts with mouth cavity liquid, described number It is connected by the acquirement of wireless communication module and ovulation detecting device according to receiving and displaying device, and sends detection and refer to Order；

(2) controller of described ovulation detecting device receives detection instruction, controls measuring signal generator Send the sinusoidal test signal of CF, the test signal that described test signal receiver will receive Being sent to signal preprocessor, test signal is carried out discrete Fourier transform meter by described signal preprocessor Calculation obtains testing data；

(3) described controller receives detection instruction, controls temperature sensor measurement mouth cavity liquid simultaneously Temperature, obtains oral temperature test data；

(4) when test data, temperature test data and ovulation detecting device are dispatched from the factory by described controller Calibration data in calibration phase access is sent to data receiver display device, described data receiver display dress Put and the data of reception are carried out preliminary treatment be sent to cloud storage and calculate with big data analysis service end；

(5) described cloud storage stores, with big data analysis service end, the number that data receiver display device is sent According to, in conjunction with previous data, draw out the chart of reflection ovulation prediction result, return to described data receiver Display device shows.

Ovulation tests method the most according to claim 6, it is characterised in that: described ovulation tests Calibrate at calibration phase when device dispatches from the factory, comprise the following steps:

(1) described ovulation detecting device is vacant, and described data receiver display device passes through wireless telecommunications mould Block obtains with ovulation detecting device and is connected, and sends detection instruction；

(2) controller of described ovulation detecting device receives detection instruction, controls measuring signal generator Sending the sinusoidal test signal of CF, the signal received is sent by described test signal receiver To signal preprocessor, signal is carried out discrete Fourier transform and is calculated school by described signal preprocessor Quasi-data；

(3) calibration data is saved in internal storage by described controller.

Ovulation tests method the most according to claim 6, it is characterised in that: described CF Sinusoidal test signal be A*sin (2* π * f*t), wherein, A is amplitude, and f is selected frequency, t For the time；The signal received is carried out discrete Fourier transform and is calculated real part by described signal preprocessor With imaginary part.

Ovulation tests method the most according to claim 6, it is characterised in that: described data receiver Display device carries out preliminary treatment to temperature test data, calculates relative temperature coefficient tf, tf= (t1-25) * 4/1000, t1 are temperature test data, revise finally according to temperature coefficient tf and obtain complex impedance:

Impedence=(Impedence_x) * (1-tf)

Described Impedence_x is the complex impedance of mouth cavity liquid.

Ovulation tests method the most according to claim 9, it is characterised in that: described data receiver Display device carries out preliminary treatment to test data, calculates ovulation detecting device lieutenant colonel according to calibration data The amplitude of quasi-resistance, and test data calculate the range value of mouth cavity liquid, thus obtain mouth cavity liquid Complex impedance data.