CN102198301B - Music playing system based on body feature monitoring - Google Patents

Abstract

A music playing system based on human body feature monitoring belongs to the medical field. The present invention solves the problem of lack of timeliness and initiative in the treatment methods, implementation places and treatment time in the existing music therapy. The present invention includes a human body feature collection module, an information processing module and a music track output module, the information processing module is used to control the music track output module to play and output corresponding music according to the physiological characteristic data of the human body collected by the human body feature collection module; the information processing module realizes the The functional method comprises the following steps: step 1, the information processing module receives the physiological characteristic data monitored by the human body characteristic collection module; step 2, according to the physiological characteristic data, the information processing module controls the music track output module carried by the monitored human body to call out a The music track is played; step 3, continue to monitor the physiological characteristic data of the monitored human body, and adjust the music volume, rhythm, stop or change the music track according to the acquired physiological characteristic data.

Description

Music player system based on human body feature monitoring

technical field

The invention relates to a music playing system based on human body feature monitoring, which belongs to the medical field.

Background technique

Due to factors such as work, study, and life pressure, complex interpersonal relationships, and environmental pollution, people are more prone to physical and mental diseases. The sub-health problem with "chronic fatigue" as the main symptom is a major public health threat to human health in the 21st century. First of all, the incidence rate is increasing year by year. At the same time, middle-aged and elderly people are prone to various diseases due to the decline of physical functions and the decline of autoimmunity. In addition, there are still some people with physical and psychological diseases who need certain methods of treatment.

With the progress and development of society, the influence of music on people's physical and mental health has gradually attracted attention during the transition from the traditional "biomedicine" model to the new "bio-psycho-society-environmental medicine" model. People's research has found that the changing melody of music not only shows the complex inner world of human beings, but also affects various emotions of human beings. Relaxing music can relieve tension, and lively music can brush away sad emotions. Music has been widely recognized as an effective psychotherapy. The application of music in medicine has many functions: it can stimulate the cerebral cortex in many ways and weaken people's sense of the outside world; it can arouse people's pleasant thoughts and emotions, and temporarily forget the environment they are in; music has a direct effect on the central nervous system. Inhibition; the charm and pleasure of music will attract and stimulate those who are socially withdrawn, thereby changing their self-enclosed state.

At present, music therapy has been paid more and more attention, and its application has gradually deepened. It is mainly reflected in: the literature on music therapy research is on the rise year by year; its application research has also penetrated from special departments such as psychiatry and oncology to other clinical departments such as surgery, obstetrics and gynecology, and traditional Chinese medicine; the application objects range from infants to the elderly , From newborns to end-of-life patients, from clinical departments to communities, its fields continue to expand. Judging from the current research content, the application of music therapy in each department has its own focus, mainly for mental illness or psychosomatic disease: for example, it is used in the treatment of schizophrenia, and it is used in patients with hypertension. From the point of view of implementation method, implementation place and treatment time, pre-recorded music is mainly played according to the treated group and the disease to be treated. The treatment place is usually carried out in the ward, work and entertainment treatment room or operating room, and the treatment time is generally selected for a certain period of time. Time period (such as 1-2 times a day, 0.5-1.5 hours each time, 2-16 weeks of treatment, etc.).

Obviously, the current music therapy treatment methods, implementation places and treatment time lack certain timeliness and initiative.

Contents of the invention

The purpose of the present invention is to solve the problem of lack of timeliness and initiative in the treatment methods, implementation places and treatment time in the existing music therapy. With the help of the development of the medical perception system, a music playback system based on human body characteristic monitoring is provided.

The music playing system based on human body feature monitoring of the present invention includes a human body feature collection module, an information processing module and a music track output module, and the information processing module is used to control the music track output according to the physiological feature data of the human body collected by the human body feature collection module The module plays and outputs the corresponding music;

The method for the information processing module to realize this function includes the following steps:

Step 1, the information processing module receives the physiological characteristic data monitored by the human body characteristic collection module, and the physiological characteristic data includes heart rate, blood pressure and blood oxygen saturation;

Step 2. According to the physiological characteristic data obtained in step 1, the information processing module controls the music track output module carried by the monitored human body to call out a certain corresponding music track to play;

Step 3: Continue to monitor the physiological characteristic data of the monitored human body, and adjust the music volume, rhythm, stop or change the music track according to the acquired physiological characteristic data.

In step 2, according to the physiological characteristic data obtained in step 1, the information processing module controls the music track output module carried by the monitored human body to call out a corresponding music track to play as follows:

Step 11. Determine the range of the heart rate x of the monitored human body, and then play the corresponding music or skip to step 12:

Among them, T ₁ is the threshold between normal and slightly slow heart rate, T ₂ is the threshold between slightly slow and too slow heart rate, T ₃ is the threshold between normal and slightly fast heart rate, and T ₄ is the threshold between slightly fast and slightly fast heart rate. Threshold between tachycardias;

Step 12. Determine the range of the blood pressure of the monitored human body, and then play the corresponding music or skip to step 13. The blood pressure includes systolic and diastolic blood pressure:

When systolic blood pressure ≥ A ₁ or diastolic blood pressure ≥ A ₂ , quiet and beautiful light music will be played;

When systolic blood pressure ≤ A ₃ or diastolic blood pressure ≤ A ₄ , play fast-paced rock music;

When A ₃ < systolic pressure < A ₁ and A ₄ < diastolic pressure < A ₂ , skip to step 13;

Among them, the parameters in the above formula are set according to the actual physical condition of the monitored human body and combined with the doctor's experience. A ₁ represents the lowest value of systolic blood pressure in hypertensive patients, and A ₂ represents the lowest value of diastolic blood pressure in hypertensive patients. A ₃ represents the highest value of systolic blood pressure in hypotensive patients, and A ₄ represents the highest value of diastolic blood pressure in hypotensive patients;

Step 13. Determine the range of the blood oxygen saturation of the monitored human body, and then play the corresponding music track:

When blood oxygen saturation ≤ B ₁ , play quiet and beautiful light music;

When blood oxygen saturation ≥ B ₂ , play fast-paced rock music;

When B ₁ < blood oxygen saturation < B ₂ , play natural music or stop playing music;

Among them, _B1 represents the highest value of arterial blood oxygen saturation in patients with low blood oxygen saturation, and _B2 represents the lowest value of arterial blood oxygen saturation in patients with high blood oxygen saturation.

In step 3, the process of adjusting music volume, rhythm, stopping or changing music tracks according to the acquired physiological characteristic data is as follows:

When the monitored heart rate is used as a benchmark to play the corresponding music track for treatment, the process of adjusting the music volume, rhythm, stopping or changing the music track is as follows:

If the heart rate x>T ₄ , and after a cycle of music therapy, the heart rate drops by no more than 5 Hz to 8 Hz, the information processing module controls the music track output module to slow down the music rhythm, and the cycle is 5 minutes to 20 minutes;

If the heart rate x<T ₂ , and after a cycle of music therapy, the increase in heart rate is not greater than 5Hz-8Hz, the information processing module controls the music track output module to speed up the music rhythm;

If the heart rate changes too fast, lower the volume. The standard for the heart rate change is too fast: increase or decrease by more than 10 Hz within 2 minutes;

If the heart rate x>T ₄ or x<T ₂ , and the heart rate does not return to the normal range after adjusting the rhythm once, the information processing module controls the music track output module to replace the music track, and the normal range of the heart rate is: T ₁ ≤x≤T ₃ .

When the monitored blood pressure is used as a benchmark to play the corresponding music track for treatment, the process of adjusting the music volume, rhythm, stopping or changing the music track is as follows:

If systolic blood pressure ≥ A ₁ or diastolic blood pressure ≥ A ₂ , and after a period of music therapy, the systolic blood pressure or diastolic blood pressure drops by no more than 5mmHg, the information processing module controls the music track output module to slow down the music rhythm;

If systolic blood pressure ≤ A ₃ or diastolic blood pressure ≤ A ₄ , and after a cycle of music therapy, the increase in systolic or diastolic blood pressure does not exceed 5mmHg, then adjust the music rhythm;

If systolic blood pressure ≥ A ₁ or diastolic blood pressure ≥ A ₂ or systolic blood pressure ≤ A ₃ or diastolic blood pressure ≤ A ₄ , and the blood pressure does not return to the normal range after adjusting the rhythm once, change the music track. The normal range of systolic blood pressure is: A ₃ < systolic blood pressure < A ₁ , and the normal range of diastolic blood pressure is: A ₄ < diastolic blood pressure < A ₂ .

When the monitored blood oxygen saturation is used as a benchmark to play the corresponding music track for treatment, the process of adjusting the music volume, rhythm, stopping or changing the music track is as follows:

If the blood oxygen saturation ≤ B ₁ , and after a cycle of music therapy, the blood oxygen saturation does not increase by more than 0.5%, then the information processing module controls the music track output module to slow down the music rhythm;

If the blood oxygen saturation is greater than or equal to _B2 , and after a cycle of music therapy, the blood oxygen saturation drops by no more than 0.5%, the information processing module controls the music track output module to adjust the music rhythm;

If the blood oxygen saturation ≤ B ₁ or blood oxygen saturation ≥ B ₂ , and after adjusting the rhythm once, the blood oxygen saturation does not return to the normal range, the information processing module controls the music track output module to replace the music track, and the blood oxygen saturation The normal range is: B ₁ < blood oxygen saturation < B ₂ .

Advantages of the present invention:

1) Use the analysis of the physiological characteristic data obtained by the medical information sensor carried by the human body to play and adjust the treatment music, and change the passive playback that cannot be adjusted according to the change of human body characteristics into active playback, so as to achieve the initiative of treatment and improve the quality of treatment ;

2) Use the analysis of the physiological characteristic data obtained by the medical information sensor carried by the human body to play and adjust the therapeutic music in real time. The playing track, playing volume and even playing rhythm can be adjusted according to the change of human body characteristics, and the playing effect can be continuously and timely fed back during the playing process The impact on people's emotional and physiological states, in order to achieve the timeliness of treatment, and then improve the quality of treatment.

Description of drawings

Fig. 1 is the structural representation of the music playing system based on human body characteristic monitoring of the present invention;

Fig. 2 is the flow chart of the process of controlling the music repertoire output module to play and output the corresponding music according to the physiological characteristic data of the human body collected by the human body characteristic acquisition module in the first embodiment;

Fig. 3 is a flow chart of the method in Embodiment 5.

Detailed ways

Specific embodiment one: below in conjunction with Fig. 1 and Fig. 2 illustrate present embodiment, the music playing system based on human body characteristic monitoring described in this embodiment, it comprises human body characteristic acquisition module 1, information processing module 2 and music repertoire output module 3, The information processing module 2 is used to control the music repertoire output module 3 to play and output corresponding music according to the physiological characteristic data of the human body collected by the human body characteristic collection module 1;

The method for the information processing module 2 to realize this function includes the following steps:

Step 1, the information processing module 2 receives the physiological characteristic data monitored by the human body characteristic collection module 1, and the physiological characteristic data includes heart rate, blood pressure and blood oxygen saturation;

Step 2. According to the physiological characteristic data obtained in step 1, the information processing module 2 controls the music track output module 3 carried by the monitored human body to call out a certain corresponding music track to play;

Step 3: Continue to monitor the physiological characteristic data of the monitored human body, and adjust the music volume, rhythm, stop or change the music track according to the acquired physiological characteristic data.

Specific embodiment two: this embodiment will further explain embodiment one. The human body feature collection module 1 is a sensor for measuring heart rate, blood pressure and blood oxygen saturation. The sensor selection model is TSL237 sensor.

Specific embodiment three: this embodiment will further illustrate embodiment one, and the music track output module 3 is a music player, MP3 or mobile phone.

Embodiment 4: This embodiment further explains Embodiment 1. The music track in Step 2 is music placed or recorded in advance according to the treatment content and the characteristics of the monitored human body.

Specific embodiment five: below in conjunction with Fig. 3 illustrate this embodiment, this embodiment is further described to embodiment one, in step two, according to the physiological feature data that step one obtains, information processing module 2 controls the music repertoire output module carried by the monitored human body 3 The process of calling out a corresponding music track to play is:

Step 11. Since the heart rate is closely related to the rhythm and strength of the music, determine the range of the heart rate x of the monitored human body, and then play the corresponding music or skip to step 12:

Music with strong strength and fast rhythm, such as DISCO music; music with moderate strength and fast rhythm change, such as rhythm and blues music; quiet, comfortable and leisure music, such as New Age music; soothing, slow rhythm music Music, such as classical minuets and serenades.

The parameters in the above formula are set according to the actual physical condition of the monitored human body and combined with the doctor’s experience, where: T ₁ is the threshold between normal and slightly slow heart rate, T ₂ is the threshold between slightly slow and too slow heart rate. _T3 is the threshold between normal and slightly fast heart rate, and _T4 is the threshold between slightly fast heart rate and too fast heart rate;

Step 12. Determine the range of the blood pressure of the monitored human body, and then play the corresponding music or skip to step 13. The blood pressure includes systolic and diastolic blood pressure:

When systolic blood pressure ≥ A ₁ or diastolic blood pressure ≥ A ₂ , quiet and beautiful light music will be played;

When systolic blood pressure ≤ A ₃ or diastolic blood pressure ≤ A ₄ , play fast-paced rock music;

When A ₃ < systolic pressure < A ₁ and A ₄ < diastolic pressure < A ₂ , skip to step 13;

The parameters in the above formula are set according to the actual physical condition of the monitored human body and combined with the doctor’s experience, among which: A ₁ represents the lowest value of systolic blood pressure in hypertensive patients, A ₂ represents the lowest value of diastolic blood pressure in hypertensive patients, A ₃ represents the highest value of systolic blood pressure in hypotensive patients, and A ₄ represents the highest value of diastolic blood pressure in hypotensive patients;

For patients with high blood pressure (including systolic and diastolic blood pressure), playing beautiful light music can play a role in lowering blood pressure; for patients with low blood pressure (including systolic and diastolic blood pressure), playing fast-paced rock music can play a role The function of boosting blood pressure is to play corresponding music according to the monitored blood pressure (including systolic and diastolic blood pressure) of the human body.

Step 13. Determine the range of the blood oxygen saturation of the monitored human body, and then play the corresponding music track:

When blood oxygen saturation ≤ B ₁ , play quiet and beautiful light music;

When blood oxygen saturation ≥ B ₂ , play fast-paced rock music;

When B ₁ < blood oxygen saturation < B ₂ , play natural music or stop playing music;

The parameters in the above formula are set according to the actual physical condition of the monitored human body and combined with the doctor’s experience, where: B ₁ represents the highest value of arterial oxygen saturation in patients with low blood oxygen saturation, and B ₂ represents high blood oxygen saturation Saturation The lowest value of arterial oxygen saturation in a patient.

For those with low blood oxygen saturation, playing beautiful music can increase it, and for those with high blood oxygen saturation, playing fast-paced rock music can reduce it. Oxygen saturation status, play the corresponding music.

When using the above three groups of monitoring parameters (heart rate, blood pressure, and blood oxygen saturation) for monitoring and treatment, the heart rate parameter has the highest priority, followed by blood pressure, and the lowest is blood oxygen saturation.

Embodiment 6: This embodiment further explains Embodiment 5. The heart rate parameters are set according to the actual physical condition of the monitored human body and combined with the doctor's experience: T ₁ =70Hz, T ₂ =60Hz, T ₃ =90Hz , T ₄ =100Hz, standard heart rate T ₀ =75Hz.

Embodiment 7: In this embodiment, Embodiment 5 is further explained. The blood pressure parameters are set according to the actual physical condition of the monitored human body and combined with the doctor's experience: A ₁ =150mmHg, A ₂ =95mmHg, A ₃ =90mmHg , A ₄ =60mmHg.

Embodiment 8: In this embodiment, Embodiment 5 is further explained. According to the actual physical condition of the monitored human body and the doctor’s experience, the blood oxygen saturation parameters are set: B ₁ =95%, B ₂ =98% .

Specific Embodiment Nine: This embodiment will further explain Embodiment 1. In step 3, the process of adjusting music volume, rhythm, stopping or changing music tracks according to the acquired physiological characteristic data is as follows:

When the monitored heart rate is used as a benchmark to play the corresponding music track for treatment, the process of adjusting the music volume, rhythm, stopping or changing the music track is as follows:

If the heart rate x>T ₄ , and after a cycle of music therapy, the heart rate drop is not greater than 5Hz-8Hz, then the information processing module 2 controls the music track output module 3 to slow down the music rhythm, and the cycle is 5 minutes to 20 minutes;

If the heart rate x<T ₂ , and after a cycle of music therapy, the increase in heart rate is not greater than 5Hz-8Hz, the information processing module 2 controls the music track output module 3 to speed up the music rhythm;

If the heart rate changes too fast, lower the volume. The standard for the heart rate change is too fast: increase or decrease by more than 10 Hz within 2 minutes;

If the heart rate x>T ₄ or x<T ₂ , and after adjusting the rhythm once, the heart rate does not return to the normal range, then the information processing module 2 controls the music track output module 3 to change the music track, and the normal range of the heart rate is: T ₁ ≤ x ≤ T ₃ .

When the monitored blood pressure is used as a benchmark to play the corresponding music track for treatment, the process of adjusting the music volume, rhythm, stopping or changing the music track is as follows:

If systolic blood pressure ≥ A ₁ or diastolic blood pressure ≥ A ₂ , and after a cycle of music therapy, the systolic blood pressure or diastolic blood pressure drops by no more than 5mmHg, the information processing module 2 controls the music track output module 3 to slow down the music rhythm;

If systolic blood pressure ≤ A ₃ or diastolic blood pressure ≤ A ₄ , and after a cycle of music therapy, the increase in systolic or diastolic blood pressure does not exceed 5mmHg, then adjust the music rhythm;

If systolic blood pressure ≥ A ₁ or diastolic blood pressure ≥ A ₂ or systolic blood pressure ≤ A ₃ or diastolic blood pressure ≤ A ₄ , and the blood pressure does not return to the normal range after adjusting the rhythm once, change the music track. The normal range of systolic blood pressure is: A ₃ < systolic blood pressure < A ₁ , and the normal range of diastolic blood pressure is: A ₄ < diastolic blood pressure < A ₂ .

When the monitored blood oxygen saturation is used as a benchmark to play the corresponding music track for treatment, the process of adjusting the music volume, rhythm, stopping or changing the music track is as follows:

If the blood oxygen saturation ≤ _B1 , and after a cycle of music therapy, the blood oxygen saturation does not increase by more than 0.5%, then the information processing module 2 controls the music track output module 3 to slow down the music rhythm;

If the blood oxygen saturation ≥ _B2 , and after a cycle of music therapy, the blood oxygen saturation drops no more than 0.5%, then the information processing module 2 controls the music track output module 3 to adjust the music rhythm;

If the blood oxygen saturation ≤ B ₁ or blood oxygen saturation ≥ B ₂ , and the blood oxygen saturation does not return to the normal range after adjusting the rhythm once, the information processing module 2 controls the music track output module 3 to replace the music track, and the blood oxygen saturation The normal range of saturation is: B ₁ < blood oxygen saturation < B ₂ .

Claims (8)

1. The music playing system based on human body feature monitoring is characterized in that it includes a human body feature collection module (1), an information processing module (2) and a music track output module (3), and the information processing module (2) is used to The physiological feature data of the human body collected by the feature collection module (1) controls the music track output module (3) to play and output corresponding music; The method for the information processing module (2) to realize this function includes the following steps: Step 1, the information processing module (2) receives the physiological characteristic data monitored by the human body characteristic collection module (1), and the physiological characteristic data includes heart rate, blood pressure and blood oxygen saturation; Step 2. According to the physiological characteristic data obtained in step 1, the information processing module (2) controls the music track output module (3) carried by the monitored human body to call out a certain corresponding music track to play; In step 2, according to the physiological characteristic data obtained in step 1, the information processing module (2) controls the music track output module (3) carried by the monitored human body to call out a certain corresponding music track to play as follows: Step 11. Determine the range of the heart rate x of the monitored human body, and then play the corresponding music or skip to step 12:

Among them, T ₁ is the threshold between normal and slightly slow heart rate, T ₂ is the threshold between slightly slow and too slow heart rate, T ₃ is the threshold between normal and slightly fast heart rate, and T ₄ is the threshold between slightly fast and slightly fast heart rate. Threshold between tachycardias; Step 12. Determine the range of the blood pressure of the monitored human body, and then play the corresponding music or skip to step 13. The blood pressure includes systolic and diastolic blood pressure: When systolic blood pressure ≥ A ₁ or diastolic blood pressure ≥ A ₂ , quiet and beautiful light music will be played; When systolic blood pressure ≤ A ₃ or diastolic blood pressure ≤ A ₄ , play fast-paced rock music; When A ₃ < systolic pressure < A ₁ and A ₄ < diastolic pressure < A ₂ , skip to step 13; Among them, the parameters in the above formula are set according to the actual physical condition of the monitored human body and combined with the doctor's experience. A ₁ represents the lowest value of systolic blood pressure in hypertensive patients, and A ₂ represents the lowest value of diastolic blood pressure in hypertensive patients. A ₃ represents the highest value of systolic blood pressure in hypotensive patients, and A ₄ represents the highest value of diastolic blood pressure in hypotensive patients; Step 13. Determine the range of the blood oxygen saturation of the monitored human body, and then play the corresponding music track: When blood oxygen saturation ≤ B ₁ , play quiet and beautiful light music; When blood oxygen saturation ≥ B ₂ , play fast-paced rock music; When B ₁ < blood oxygen saturation < B ₂ , play natural music or stop playing music; Among them, _B1 represents the highest value of arterial blood oxygen saturation in patients with low blood oxygen saturation, and _B2 represents the lowest value of arterial blood oxygen saturation in patients with high blood oxygen saturation; Step 3: Continue to monitor the physiological characteristic data of the monitored human body, and adjust the music volume, rhythm, stop or change the music track according to the acquired physiological characteristic data. 2. The music playing system based on human body feature monitoring according to claim 1, wherein the human body feature collection module (1) is a sensor for measuring heart rate, a blood pressure sensor and a sensor for measuring blood oxygen saturation, and the model for measuring heart rate and blood pressure sensor is selected The sensor is MS5536, and the sensor used to measure blood oxygen saturation is TSL237 sensor. 3. the music playing system based on human body characteristic monitoring according to claim 1, is characterized in that, music track output module (3) is music player, MP3 or mobile phone. 4. The music playing system based on human body characteristic monitoring according to claim 1, characterized in that the music track in step 2 is music placed or recorded in advance according to the treatment content and the characteristics of the monitored human body. 5 . The music playing system based on human body feature monitoring according to claim 1 , wherein T ₁ =70 Hz, T ₂ =60 Hz, T ₃ =90 Hz, and T ₄ =100 Hz. 6 . The music playing system based on human body characteristic monitoring according to claim 1 , wherein A ₁ =150mmHg, A ₂ =95mmHg, A ₃ =90mmHg, A ₄ =60mmHg. 7. The music playing system based on human body feature monitoring according to claim 1, wherein B ₁ =95%, B ₂ =98%. 8. The music playing system based on human body feature monitoring according to claim 1, wherein the process of adjusting music volume, rhythm, stopping or changing music tracks according to the acquired physiological feature data in step 3 is: When the monitored heart rate is used as a benchmark to play the corresponding music track for treatment, the process of adjusting the music volume, rhythm, stopping or changing the music track is as follows: If the heart rate x>T ₄ , and after a cycle of music therapy, the heart rate drop is not greater than 5Hz-8Hz, then the information processing module (2) controls the music track output module (3) to slow down the music rhythm, and the cycle is 5 minutes ~20 minutes; If the heart rate x<T ₂ , and after a cycle of music therapy, the increase in heart rate is not greater than 5Hz-8Hz, the information processing module (2) controls the music track output module (3) to speed up the music rhythm; If the heart rate changes too fast, lower the volume. The standard for the heart rate change is too fast: increase or decrease by more than 10 Hz within 2 minutes; If the heart rate x>T ₄ or x<T ₂ , and after adjusting the rhythm once, the heart rate does not return to the normal range, then the information processing module (2) controls the music track output module (3) to replace the music track, and the normal range of the heart rate is: T ₁ ≤ x ≤ T ₃ . When the monitored blood pressure is used as a benchmark to play the corresponding music track for treatment, the process of adjusting the music volume, rhythm, stopping or changing the music track is as follows: If the systolic blood pressure ≥ A ₁ or diastolic blood pressure ≥ A ₂ , and after a cycle of music therapy, the systolic blood pressure or diastolic blood pressure drops within 5mmHg, then the information processing module (2) controls the music track output module (3) to slow down the music rhythm ; If systolic blood pressure ≤ A ₃ or diastolic blood pressure ≤ A ₄ , and after a cycle of music therapy, the increase in systolic or diastolic blood pressure does not exceed 5mmHg, then adjust the music rhythm; If systolic blood pressure ≥ A ₁ or diastolic blood pressure ≥ A ₂ or systolic blood pressure ≤ A ₃ or diastolic blood pressure ≤ A ₄ , and the blood pressure does not return to the normal range after adjusting the rhythm once, change the music track. The normal range of systolic blood pressure is: A ₃ < systolic blood pressure < A ₁ , the normal range of diastolic blood pressure is: A ₄ < diastolic blood pressure < A ₂ ; When the monitored blood oxygen saturation is used as a benchmark to play the corresponding music track for treatment, the process of adjusting the music volume, rhythm, stopping or changing the music track is as follows: If the blood oxygen saturation ≤ _B1 , and after a period of music therapy, the blood oxygen saturation does not increase by more than 0.5%, then the information processing module (2) controls the music track output module (3) to slow down the music rhythm; If blood oxygen saturation ≥ _B2 , and after a cycle of music therapy, blood oxygen saturation drops no more than 0.5%, then the information processing module (2) controls the music track output module (3) to adjust the music rhythm; If the blood oxygen saturation ≤ B ₁ or blood oxygen saturation ≥ B ₂ , and after adjusting the rhythm once, the blood oxygen saturation does not return to the normal range, then the information processing module (2) controls the music track output module (3) to change the music The normal range of blood oxygen saturation is: B ₁ < blood oxygen saturation < B ₂ .

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