CN112190249A - Detection method of apnea detection system - Google Patents

Abstract

The invention discloses a detection method of an apnea detection system, which comprises the following steps: the electromagnetic wave detection module collects a respiratory signal of a person to be detected and sends the respiratory signal to the respiratory detection module; after the respiration detection module acquires the respiration signal acquired by the electromagnetic wave detection module, analyzing the respiration signal and judging whether the respiration is suspended, and triggering the alarm module to give an alarm when the respiration is suspended; the alarm module gives an alarm under the triggering of the breath detection module. The electromagnetic wave emitted by the electromagnetic wave detection module can penetrate through a non-metal medium to detect a respiration signal, can be detected without directly contacting with a human body, and does not limit the freedom of a person to be detected; based on time-frequency analysis and spectrum analysis technologies, the respiratory signal is subjected to time-frequency analysis by utilizing the periodic property of the respiratory signal, the Doppler instantaneous frequency of respiration is estimated, whether the Doppler instantaneous frequency of the respiration is periodic or not is judged, and therefore whether the respiration exists or not is judged, the calculation amount is small, and the detection speed is high.

Description

Detection method of apnea detection system

Technical Field

The invention relates to the technical field of breath detection, in particular to a detection method of an apnea detection system.

Background

During sleep, the oronasal respiratory airflow stops completely for more than 10S, i.e. is considered an apnea. When sleep apnea occurs, oxygen in blood is reduced and the body is in an anoxic state. If the phenomenon occurs frequently, namely the number of pauses in the sleep process is more than 30 times per hour (more than 5 times per hour) or 7 hours per hour (more than 30 times per hour), if the apnea phenomenon is not found in the long-term years, the effective treatment is not carried out, serious consequences can be caused, and a series of pathological and physiological changes can occur. Therefore, monitoring sleep breathing is critical to concern human health.

PSG devices and wrist activity recorders are commonly used to monitor sleep. The wrist type activity recorder can be connected to any limb, obtains body movement data based on the same acceleration principle, has good application effect in monitoring the body movement state in sleep, but cannot monitor the breathing state. The PSG instrument can simultaneously measure a plurality of physiological signals such as electroencephalogram, electrocardiogram, electromyogram, eye chart, chest type and abdominal type respiratory tension chart, nasal and oral ventilation volume, body position and body movement, blood oxygen saturation and the like, but the measurement is complex, a plurality of electrodes need to be fixed on the body of a monitor, the freedom of the monitor is limited, the psychological burden of the monitor is increased, data can be acquired for analysis through long-time monitoring, and the PSG instrument is mainly used for laboratory environment and is not easy to be used for home monitoring.

Disclosure of Invention

The invention aims to solve the technical problems that the existing apnea detection technology is complex to operate, limits the freedom of a monitor, can obtain a detection result only by analyzing long-time monitoring data, and is not easy to monitor in daily families.

In order to solve the problems, the invention adopts the following specific technical scheme: a detection method of an apnea detection system comprises an electromagnetic wave detection module, a respiration detection module and an alarm module, wherein the electromagnetic wave detection module is connected with the respiration detection module, and the respiration detection module is connected with the alarm module; the detection method of the apnea detection system comprises the following steps:

step 1, an electromagnetic wave detection module collects a respiratory signal of a person to be detected and sends the respiratory signal to a respiratory detection module;

step 2, after the respiration detection module acquires the respiration signal acquired by the electromagnetic wave detection module, analyzing and processing the respiration signal, judging whether the respiration is suspended, and triggering the alarm module when the respiration is suspended, wherein the method specifically comprises the following steps:

2.1, acquiring a respiratory signal acquired by an electromagnetic wave detection module, and analyzing the respiratory signal by using a time-frequency analysis method to obtain time-frequency distribution of the respiratory signal;

2.2, calculating the respiratory Doppler instantaneous frequency by using an instantaneous frequency estimation method;

2.3, carrying out Fourier transform on the respiratory Doppler instantaneous frequency to obtain a frequency spectrum of the Doppler instantaneous frequency, thereby obtaining a magnitude spectrum of the Doppler instantaneous frequency;

2.4, detecting peak amplitude and peak frequency in the amplitude spectrum, calculating the average amplitude of the frequency in the amplitude spectrum between 0.1 Hz and 0.8Hz, and calculating the ratio of the peak amplitude to the average amplitude;

2.5, comparing whether the peak frequency is between 0.1 Hz and 0.8Hz, if so, judging that the patient has no breath, otherwise, comparing whether the ratio of the peak amplitude to the average amplitude is smaller than a preset threshold value, if so, judging that the patient has no breath, and if the patient has no breath after three times of continuous judgment, determining that the patient has apnea, and triggering an alarm module;

and 3, the alarm module gives an alarm under the triggering of the breath detection module.

As a further improvement of the invention, the time-frequency analysis method used in step 2 is a short-time Fourier transform. The short-time Fourier transform is used for researching the breathing signal by adopting single resolution, can reflect the time-frequency trend of the breathing signal, and has simple algorithm and easy realization.

As a further improvement of the present invention, the instantaneous frequency estimation method used in step 2 is a maximum value method. The Doppler instantaneous frequency is obtained by using a maximum value method, and the calculation is simple and quick.

The invention has the beneficial effects that: according to the invention, the electromagnetic wave emitted by the electromagnetic wave detection module penetrates through a nonmetal medium (bedding, clothes and the like) to detect the breathing signal of the human body, so that the breathing signal can be acquired without directly contacting with the human body, and the freedom of a person to be detected is not limited; based on time-frequency analysis and spectrum analysis technologies, the respiratory signal is periodic, the respiratory signal is subjected to time-frequency analysis, the Doppler instantaneous frequency of respiration is estimated, the time-frequency distribution of the Doppler instantaneous frequency is subjected to spectrum analysis, whether the Doppler instantaneous frequency of the respiration is periodic or not is judged, whether the respiration exists or not is judged, the calculation amount is small, whether the respiration exists or not can be judged only by collecting the respiratory signal in a sampling time period, and the detection speed is high; the used preset threshold value is not changed in the whole detection process, is not influenced by the measurement distance and the environment after being set, is not required to be set aiming at different testees, and has good universality; according to the invention, when the apnea is judged, the alarm module gives an alarm, the reminding effect is obvious, and a guardian can find measures to be taken in time; the method is simple to operate and can be used for daily household monitoring.

Drawings

Fig. 1 is a block diagram of the apnea detection system of the present invention.

Fig. 2 is a flow chart of a detection method of the apnea detection system of the present invention.

FIG. 3 is a diagram of two signals I and Q outputted from the electromagnetic wave detection module in the embodiment of the detection method of the present invention.

FIG. 4 is a respiratory Doppler instantaneous frequency-time frequency distribution diagram obtained in an embodiment of the detection method of the present invention.

FIG. 5 is a breath amplitude profile obtained in an embodiment of the detection method of the invention.

Detailed Description

As shown in fig. 1, the apnea detecting system based on the method of the present invention includes an electromagnetic wave detecting module for collecting a respiratory signal of a person to be detected, a respiratory detecting module for receiving the respiratory signal and detecting whether respiration is paused, and an alarm module for giving an alarm during apnea, wherein the electromagnetic wave detecting module is connected to the respiratory detecting module, and the respiratory detecting module is connected to the alarm module.

In the specific embodiment of the invention, the electromagnetic wave detection module is a continuous wave life detector and is used for collecting respiratory signals of a person to be detected; the breath detection module is a PC and is used for receiving a breath signal and detecting whether the breath is paused or not, and an alarm module is triggered when the breath is paused; the alarm module is a loudspeaker or an external loudspeaker of the PC. The continuous wave life detection instrument comprises a transmitter, a transmitting antenna connected with the transmitter, a receiver front end, a receiving antenna connected with the receiver front end, an analog signal conditioning circuit, a single chip microcomputer and a wireless communication module, wherein the transmitter is connected with the receiver front end, the receiver front end is connected with the single chip microcomputer through the analog signal conditioning circuit, the single chip microcomputer is connected with the wireless communication module, the transmitter transmits Local Oscillation (LO) signals to the receiver front end, the receiver front end outputs two paths of I/Q signals to the analog signal conditioning circuit, the analog signal conditioning circuit filters and amplifies the received signals and then divides the signals into two paths of I/Q signals to be transmitted to the single chip microcomputer, and the single chip microcomputer transmits the signals to a Personal Computer (PC) through the wireless communication module after A/D conversion. The PC machine comprises a wireless communication module, a storage, a respiration signal analysis system and a loudspeaker, the PC machine receives respiration signals collected from the continuous wave life detector and stores the respiration signals into the storage, and the respiration signal analysis system processes and analyzes the respiration signals, judges whether respiration is suspended and controls the loudspeaker to give out alarm sound when respiration is suspended. The process of processing the respiratory signal by the respiratory signal analysis system is as follows: analyzing the respiratory signals by using a time-frequency analysis method to obtain time-frequency distribution of the respiratory signals; calculating the respiratory Doppler instantaneous frequency by using an instantaneous frequency estimation method; fourier transform is carried out on the respiratory Doppler instantaneous frequency to obtain a frequency spectrum of the Doppler instantaneous frequency, so that a magnitude spectrum of the Doppler instantaneous frequency is obtained; detecting peak amplitude and peak frequency in the amplitude spectrum, calculating the average amplitude of the frequency in the amplitude spectrum between 0.1 Hz and 0.8Hz, and calculating the ratio of the peak amplitude to the average amplitude; judging whether the peak frequency is between 0.1 Hz and 0.8Hz, if so, judging that the patient has no breath, otherwise, judging whether the ratio of the peak amplitude to the average amplitude is smaller than a preset threshold value, if so, judging that the patient has no breath, and if the patient has no breath for three times, judging that the patient has apnea, and triggering a loudspeaker to give an alarm.

As shown in fig. 2, the detection method of the apnea detecting system provided by the present invention specifically includes the following steps:

s1, setting the sampling frequency fs and the number N of sampling points of the respiratory signal acquired by the electromagnetic wave detection module, and setting the sampling time period ts to be N/fs; the respiration signals output by the electromagnetic wave detection module are I and Q digital signals.

And S2, the electromagnetic wave detection module collects the respiratory signal of the person to be detected and transmits the collected respiratory signal of a sampling time period to the respiratory detection module.

S3, after receiving a respiratory signal of a sampling time period, the respiratory detection module analyzes and processes the respiratory signal, judges whether the respiration is suspended, and triggers the alarm module when the respiration is suspended, and the method specifically comprises the following steps:

and S3.1, analyzing the respiratory signals by using a time-frequency analysis method to obtain time-frequency distribution of the respiratory signals.

In the embodiment of the present invention, a Short Time Fourier Transform (STFT) is preferably adopted to perform time-frequency analysis on a complex signal composed of I and Q signals, so as to obtain a two-dimensional time-frequency matrix TFR (n, k) of the respiratory signal, where n is a discrete time sequence and k is a corresponding discrete frequency sequence. Other high performance time-frequency analysis methods with higher time-frequency resolution may also be employed, such as rearranged short-time fourier transform (rearranged STFT), B-distribution, and the like.

And S3.2, calculating the respiratory Doppler instantaneous frequency by using an instantaneous frequency estimation method.

In the specific embodiment of the invention, the extreme method is preferably adopted to calculate the Doppler instantaneous frequency to obtain the time-frequency distribution of the Doppler instantaneous frequency, and the Viterbi algorithm can also be adopted to calculate the Doppler instantaneous frequency, so that the precision of the obtained Doppler instantaneous frequency is higher.

And S3.3, carrying out Fourier transform on the respiratory Doppler instantaneous frequency to obtain a frequency spectrum of the respiratory Doppler instantaneous frequency, so as to obtain a magnitude spectrum of the respiratory Doppler instantaneous frequency.

S3.4, detecting a peak amplitude Amax and a peak frequency F in the amplitude spectrum of the respiratory Doppler instantaneous frequency, calculating an average amplitude C of the frequency between 0.1 Hz and 0.8Hz in the amplitude spectrum, and calculating a ratio between the peak amplitude and the average amplitude Amax/C.

S3.5, comparing whether the peak frequency F is between 0.1 Hz and 0.8Hz, if so, determining that no breath exists in the sampling time period, otherwise, comparing whether the ratio is greater than a preset threshold value T, if so, determining that breath exists in the sampling time period, continuing S2 to collect a breath signal of the next sampling time period, otherwise, determining that no breath exists; and if no breath is judged in three continuous sampling time periods, determining apnea, and sending a trigger signal to the alarm module.

The preset threshold T is used for obtaining the ratio of the peak amplitude to the average amplitude in the sampling time periods under two conditions after the respiration detection module processes the respiration signals of the electromagnetic wave detection module in the sampling time periods under the two conditions of people and nobody, and finding a value after artificial statistical analysis, wherein the value can distinguish the two conditions of people and nobody, and the value is determined as the preset threshold T. The preset threshold value is only related to hardware parameters of the electromagnetic wave detection module and algorithm parameters of a time-frequency analysis method, a frequency spectrum analysis method and an instantaneous frequency estimation method adopted by the respiration detection module, once the threshold value is set, the threshold value is not changed in the whole detection process, the threshold value is not influenced by the measured distance and the environment, the threshold value is not required to be set for different testees, and the universality is good.

And S4, the alarm module sends out an alarm after receiving the trigger signal.

In the specific embodiment of the invention, the sampling frequency fs of the continuous wave life detector is set to be 30Hz, the number N of sampling points is set to be 512, and the threshold value T is determined to be 3 by measuring the amplitude ratio under the two conditions of human existence and no human existence. During respiration detection, an apnea detection system is placed 50cm away from a person to be detected for detection, two paths of I and Q digital signals output by a certain sampling time period of an electromagnetic wave detection module are shown in figure 2, the obtained time-frequency distribution of respiratory Doppler instantaneous frequency of the sampling time period is shown in figure 3, and figure 4 is a respiratory amplitude spectrogram. In the figure, the peak frequency is about 0.3Hz, the effective frequency range is between 0.1 Hz and 0.8Hz, the peak amplitude is 233.46, the average amplitude of the frequency between 0.1 Hz and 0.8Hz is 47.53, the ratio of the two is 4.9, the judgment result of the sampling time period is the existence of breath, and the detection of the next sampling time period is continued.

Claims (3)

1. A method of detecting an apnea detection system, comprising: the apnea detection system comprises an electromagnetic wave detection module, a respiration detection module and an alarm module, wherein the electromagnetic wave detection module is used for collecting respiration signals of a person to be detected, the respiration detection module is used for receiving the respiration signals and detecting whether respiration is paused, the alarm module is used for giving an alarm during apnea, the electromagnetic wave detection module is connected with the respiration detection module, and the respiration detection module is connected with the alarm module;

the electromagnetic wave detection module is a continuous wave life detector; the breath detection module is a PC; the alarm module is a loudspeaker or an external loudspeaker of the PC;

the continuous wave life detection instrument comprises a transmitter, a transmitting antenna connected with the transmitter, a receiver front end, a receiving antenna connected with the receiver front end, an analog signal conditioning circuit, a single chip microcomputer and a wireless communication module, wherein the transmitter is connected with the receiver front end, the receiver front end is connected with the single chip microcomputer through the analog signal conditioning circuit, the single chip microcomputer is connected with the wireless communication module, the transmitter transmits Local Oscillation (LO) signals to the receiver front end, the receiver front end outputs two paths of I/Q signals to the analog signal conditioning circuit, the analog signal conditioning circuit filters and amplifies the received signals and then divides the signals into two paths of I/Q signals to be transmitted to the single chip microcomputer, and the single chip microcomputer transmits the signals to a Personal Computer (PC) through the wireless communication module after A/D conversion;

the PC machine comprises a wireless communication module, a memory, a respiration signal analysis system and a loudspeaker, the PC machine receives the respiration signals collected from the continuous wave life detector and stores the respiration signals into the memory, the respiration signal analysis system processes and analyzes the respiration signals, judges whether respiration is suspended or not and controls the loudspeaker to give out alarm sound when the respiration is suspended;

the detection method of the apnea detection system comprises the following specific steps:

and S1, setting the sampling frequency fs and the number N of sampling points of the collected respiratory signals of the electromagnetic wave detection module, and setting the sampling time period ts to be N/fs.

And S2, the electromagnetic wave detection module collects the respiratory signal of the person to be detected and transmits the collected respiratory signal of a sampling time period to the respiratory detection module.

S3, after receiving a respiratory signal of a sampling time period, the respiratory detection module analyzes and processes the respiratory signal, judges whether the respiration is suspended, and triggers the alarm module when the respiration is suspended, and the method specifically comprises the following steps:

s3.1, analyzing the respiratory signals by using a time-frequency analysis method to obtain time-frequency distribution of the respiratory signals;

s3.2, calculating the respiratory Doppler instantaneous frequency by using an instantaneous frequency estimation method;

s3.3, carrying out Fourier transform on the respiratory Doppler instantaneous frequency to obtain a frequency spectrum of the respiratory Doppler instantaneous frequency, so as to obtain a magnitude spectrum of the respiratory Doppler instantaneous frequency;

s3.4, detecting a peak amplitude Amax and a peak frequency F in the amplitude spectrum of the respiratory Doppler instantaneous frequency, calculating an average amplitude C of the frequency between 0.1 Hz and 0.8Hz in the amplitude spectrum, and calculating a ratio between the peak amplitude and the average amplitude Amax/C.

S3.5, comparing whether the peak frequency F is between 0.1 Hz and 0.8Hz, if so, determining that no breath exists in the sampling time period, otherwise, comparing whether the ratio is greater than a preset threshold value T, if so, determining that breath exists in the sampling time period, continuing S2 to collect a breath signal of the next sampling time period, otherwise, determining that no breath exists; if no breath is judged in three continuous sampling time periods, determining apnea, and sending a trigger signal to an alarm module; the preset threshold T is used for obtaining the ratio of the peak amplitude to the average amplitude in the sampling time periods under two conditions after the respiration detection module processes the respiration signals of the electromagnetic wave detection module in the sampling time periods under the two conditions of people and no people, finding a value after manual statistical analysis, and determining the value as the preset threshold T;

and S4, the alarm module sends out an alarm after receiving the trigger signal.

2. The apnea detection system detection method of claim 1, wherein said time-frequency analysis method is short-time fourier transform.

3. The apnea detection system detection method of claim 1, wherein said instantaneous frequency estimation method is a maximum method.

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