CN112386224A - Sleep health management system - Google Patents
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- A—HUMAN NECESSITIES
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Abstract
The invention relates to a sleep health management system. The system comprises a sleep physiological data collecting device, an information display and transmission device and a server. The server includes a data processing module, a questionnaire processing module, a data tracking module, a sleep log database and a service providing module. The invention provides the sleep physiological data, the questionnaire and the sleep log to the sleep medical professional before the sleep disorder person receives treatment, so that the sleep medical professional can master subjective and objective sleep disorder data of the sleep disorder person, and the sleep medical professional can judge the reason of the sleep disorder. Meanwhile, the sleep disorder person can know the objective change condition of the physical condition within a period of time after receiving diagnosis and treatment of the sleep medical professional.
Description
Technical Field
The invention relates to a health management system, in particular to a sleep health management system which collects human physiological information during sleep and effectively analyzes the current physical condition of a testee by matching with a questionnaire so as to be convenient for comparison and improvement during future physical conditioning.
Background
Sleep disorders are a common problem in today's society, and long-term insomnia affects mood, memory thinking, coordination of actions, daytime daily life, and performance. The causes of sleep disorders are complex and diverse, and thus often cause difficulties in clinical diagnosis. Fortunately, sleep medicine has grown long during the past 40 years: in the past, only the study subjects of sleep concerned by the psychology, nerve, psychology and physiology, after 1970, after sleep apnea (sleep apnea syndrome) was emphasized, the subjects of thoracic department, laryngeal department, oral surgery, cardiology department, endocrinology department and the like have been put into the study field of sleep medicine, and the sleep medicine has been developed.
The lack of convenience and instantaneity exists in the use of the traditional sleep medical service platform, system or product in the market for treating or detecting sleep-related diseases. Taking Philips Actiwatch Spectrum PRO as an example, the product is a professional sleep-assisted analysis wearable device which is most commonly adopted by medical institutions at present. However, the patients with sleep disorder must be diagnosed and judged by sleep medical professionals with special software to solve the sleep problem, which is not enough in terms of instantaneity and convenience. In terms of price, each scheme (wearable device + analysis software) exceeds ten million yuan of a new Taiwan currency, often being prohibitive for medical units or consumers. If the specially designed hardware is not considered, the wearable device between the general workshops, such as the millet bracelet, can also detect the sleep-related diseases by the sleep quality monitoring function which is provided by the wearable device and can be connected with the APP in series. The product can not be used for one thousand yuan for a new Taiwan currency, and the product is widely used in the medical field. However, the sleep-related information provided by such products is not enough to be a reference for sleep medical professionals to determine the sleep problems of patients because the domestic related certification is not obtained through clinical experiments, which is a pity.
Although the monitoring data provided by the wearable device is not accepted by the sleep medical professionals, the hardware detection technology is advanced, and the wearable device is still becoming popular for a day, and several wearable devices have been certified by taiwan health welfare department. Most importantly, the wearable devices detect immediate pathological symptoms, which can be used as important basis for subsequent medical diagnosis. The data provided by the wearable devices is objective data and does not contain human subjective judgment. But a part of the diagnosis of the sleep disorder by the general sleep medical professional comes from the inquiry of the latter, that is, the knowledge of which sleep disorder has behaviors, personality traits or environmental factors affecting sleep, such as nutrition diet, health care, sleep quality, job time, exercise habits, sleep environment, and so on. The subjective responses from the sleep disorder person are matched with objective sleep physiological data observed for a long time, such as brain waves, respiratory airflows, pulse arms, heart rate, blood oxygen, body movement, sleeping postures and the like, so that the sleep medical professional can provide the most effective diagnosis and treatment mode for the sleep disorder person. However, when a sleep medical professional diagnoses a sleep disorder individual case, the sleep medical professional is limited by the inquiry time of the sleep disorder individual except for lacking the sleep physiological data analysis, cannot effectively know the actual situation of the sleep disorder individual so as to make a correct judgment, and cannot track the improvement or change of the treatment of the sleep disorder individual so as to appropriately adjust the diagnosis and treatment mode.
Therefore, in view of the above problems in the field of sleep medicine, the present inventors have proposed the sleep health management system in the present application, in order to propose a more advanced but cost-effective diagnosis assistance solution for sleep medicine.
Disclosure of Invention
This paragraph of text extraction and compilation has certain features of the present invention. Other features will be disclosed in subsequent paragraphs. It is intended to cover various modifications and similar arrangements included within the spirit and scope of the application.
In order to solve the foregoing problems, the present invention provides a sleep health management system. The system comprises: a sleep physiological data gathering device, comprising: the detection module is used for continuously detecting and collecting at least one sleep physiological data of the human body during sleep; and a transmission module for continuously transmitting the at least one sleep physiological data to the outside; the information display transmission device is in information connection with the transmission module and is used for recording and displaying the continuous recording data of the at least one sleep physiological data and transmitting the recording data to the outside; and a server connected with the information display transmission device through a network to obtain the recorded data, comprising: a data processing module for recording the recorded data according to time sequence, removing local extreme value, selecting effective recorded data from the recorded data, and sending the effective recorded data to a communication device; a questionnaire processing module, which comprises a plurality of questionnaires with questions set according to different influence factors, and is used for providing part or all of the questionnaires to the information display transmission device, so that the sleeping disorder person answers and recovers the answered questionnaire results, and sends the questionnaire results and the corresponding questionnaire to the communication device; a data tracking module connected with the data processing module, setting a reasonable parameter interval for each sleep physiological data, judging whether the sleep problem of the sleep disorder person is improved or not according to whether the sleep physiological data gradually converges in the corresponding reasonable parameter interval or not in a data tracking time after the data processing module sends effective record data to the communication device, and sending a judgment result to the information display transmission device.
According to the invention, the sleep physiological data can be brain wave frequency, respiratory airflow, pulse and arm frequency, heart rate, blood oxygen content, body movement rate, snore decibel or sleeping posture.
According to the present invention, the information display and transmission device can be a tablet computer or a smart phone equipped with an operation mobile application.
According to the present invention, the operation mobile application program is activated to display the continuously recorded data and questionnaire of the at least one sleep physiological data on a touch screen of the information display and transmission device, so that the user can answer the questionnaire, and the questionnaire result is transmitted back to the questionnaire processing module of the server.
According to the invention, the influencing factor may be a living form, a nutritional diet, an athletic habit, a physical health care, an emotional personality, a interpersonal emotion, a job site or a sleep environment.
In accordance with the present invention, the reasonable parameter interval may be a sleep medically defined disease range data interval.
According to the present invention, the data tracking time may be consecutive days of the week or more.
According to the present invention, the communication device can be a desktop computer, a notebook computer, a smart phone or a tablet computer.
The server of the sleep health management system further comprises a sleep log database for storing, updating and providing the sleep disorder person with the subjective explanatory text, voice or video data aiming at the sleep condition every day.
According to the invention, the transmission module can be a Bluetooth module or a Wi-Fi module.
According to the invention, the information display transmission device can be operated to edit the explanatory text, voice or video data and upload the explanatory text, voice or video data to the sleep log database.
According to the invention, the sleep log database can receive the request of the communication device and send the descriptive text, voice or video data to the communication device.
The server of the sleep health management system further comprises a service providing module which is connected with the data tracking module and stores a plurality of enhanced sleep quality service information corresponding to the sleep physiological data, and when the judgment result of the data tracking module is not improved or deteriorated, the enhanced sleep quality service information corresponding to the sleep physiological data is sent to the information display transmission device.
The invention provides the sleep medical professional with the sleep physiological data, the questionnaire and the sleep log before the sleep disorder person receives treatment, so that the sleep medical professional can master the subjective and objective sleep disorder information of the sleep disorder person, and the sleep medical professional can judge the reason of the sleep disorder. Meanwhile, the sleep disorder person can know the change condition of the objective physical condition within a period of time after receiving diagnosis and treatment of the sleep medical professional. Once the treatment effect is not good, the service providing module will also provide other information for improving sleep disorder.
Drawings
Fig. 1 is a schematic diagram of a sleep health management system according to an embodiment of the invention.
Fig. 2 is a schematic diagram of sleep physiological data over time.
Description of the reference numerals
10 network
20 desktop computer
100 sleep physiological data collecting device
110 detection module
120 transmission module
200 information display transmission device
210 bluetooth module
220 mobile communication module
230 touch screen
300 server
310 data processing module
320 questionnaire processing module
330 data tracking module
340 sleep log database
350 service provisioning module.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any inventive changes, are within the scope of the present invention.
Referring to fig. 1, a schematic diagram of a sleep health management system according to an embodiment of the invention is shown. The sleep health management system comprises a sleep physiological data collecting device 100, an information display and transmission device 200 and a server 300. The structure, function and operation of these technical elements are described below.
The sleep physiology data gathering device 100 includes a detection module 110 and a transmission module 120. The detecting module 110 can continuously detect and collect at least one sleep physiological data of the human body during sleep. The sleep physiological data refers to physical detection quantity which can be externally detected by a human body in a sleep room and is used for finding out the occurrence reason of the sleep disorder of the human body, such as but not limited to brain wave frequency, respiratory airflow, pulse and arm frequency, heart rate, blood oxygen content, body movement rate, snore decibel or sleeping posture. The brain wave frequency may include wave types of different frequency ranges, such as alpha wave, beta wave, theta wave, delta wave, and gamma wave, and the detection module 110 of the sleep physiology data collection apparatus 100 may include a brain wave sensor (not shown) installed on the head of the human body to obtain data. The respiratory airflow is the basic data for testing lung function, and is especially important for observing sleep disorder, especially sleep apnea, and the detection module 110 of the sleep physiological data collection apparatus 100 may include a respiratory flowmeter (Spirometer, not shown) which is installed on the face with an oronasal mask for measuring the airflow in and out of the mouth and nose during sleep. Pulse frequency can be acquired by an optical heart rate sensor (not shown) in close proximity to the epidermis. In this case, the detecting module 110 of the sleep physiology data gathering device 100 can include the optical heart rate sensor, and is configured on the wrist as a wearable device. The heart rate and pulse frequency have the same occurrence reason and the same data, but the obtaining manner or position is slightly different, and in principle, the detection module 110 of the sleep physiological data collection device 100 can also detect the data through the aforementioned optical heart rate sensor. The blood oxygen content is the oxygen content in human blood, and the oxygen saturation can be measured by clamping a finger with a pulse oximeter in a traditional monitoring mode. With the development of science and technology, a green LED can be used as a detection light source, and a blood oxygen detector manufactured by utilizing the principle that different blood oxygen contents and different frequencies of light are absorbed is widely applied to an intelligent bracelet. Therefore, the detecting module 110 of the sleep physiology data gathering device 100 can also include the blood oxygen detector to detect the blood oxygen amount in a bracelet type. Whether the human body is in a sleeping state or not, the body motion rate is the specific data of the observed dynamic state, namely the number of actions (frequency) generated per second. The body motion rate decreases during sleep and increases during waking. The detection module 110 of the sleep physiology data gathering device 100 can be attached to the skin surface using an acceleration sensor (not shown), or can be placed on a bed for monitoring. The snore is the sound produced by human body during sleeping, and the size of the snore can be distinguished by decibel, and the snore decibel is the pure snore energy size obtained by deducting external noise during the collection of the sleeping time of the human body. In practice, the detecting module 110 of the sleep physiology data gathering device 100 can use a micro microphone (not shown) to cooperate with the signal processing circuit to perform the decibel detection of snoring. Finally, sleeping postures are also objective data for observing sleep disorders, and some sleeping postures reflect the result of automatic adjustment due to dyspnea. The sleeping posture can be tracked and shot for a long time by using an acceleration sensor (not shown) or a camera module. If a speed sensor is used, the speed sensor may be mounted in any of the modules described above. If a camera module is used, the detection module 110 of the sleep physiological data collection device 100 is similar to a camera and is placed at a fixed position for detection. According to the present invention, at least one of the collected sleep physiological data is detected by the detection module 110. In the embodiment, the sleep physiological data collecting device 100 can detect the blood oxygen amount and the pulse frequency at the same time, and is shaped as a hand ring sleeved on the wrist for detection. The transmission module 120 can be used to continuously transmit the at least one sleep physiological data from the detection module 110 to the outside. In practice, the transmission module 120 may be a Bluetooth module or a Wi-Fi module, and can transmit data wirelessly. Of course, the bracelet is only one carrier of the sleep physiological data gathering device 100 in this embodiment. In other embodiments, the carrier of the sleep physiology data gathering device 100 may be a patch, a smart garment, or other suitable body-attached device.
The information display transmission device 200 is connected to the transmission module 120 for recording and displaying the continuous recording data of the at least one sleep physiological data, and transmitting the recording data to the outside. Since the sleep physiology data gathering device 100 is installed close to the human body, it is separated from the information display and transmission device 200. The information display transmission device 200 and the transmission module 120 can communicate with each other with the same standard (bluetooth or 2.4G signal), such as a bluetooth module 210 (the dashed box indicates that the bluetooth module 210 is inside the information display transmission device 200 and cannot be seen directly). The information display transmission device 200 may be specially designed hardware, or may be a tablet computer or smart phone equipped with an operating mobile application. The function of the operating mobile application will be described later. The information display transmission device 200 is owned by the sleep-disabled person or temporarily used in a rental mode for monitoring and viewing the detection result during sleep.
The server 300 is connected to the information display transmission device 200 through the network 10 to obtain the aforementioned recorded data. The server 300 has a structure similar to a general server, including a central processing unit for processing logical operations, a hard disk or a solid state disk for storing data, a memory for temporarily storing data to be operated, an I/O interface for data input/output, and a specific operating software. The difference is that the server 300 includes a data processing module 310, a questionnaire processing module 320, a data tracking module 330, a sleep log database 340 and a service providing module 350. These modules or databases can be hardware (add-in card), can be software-simulated or operated, or even can be partly hardware and partly software. The server 300 and the information display transmission device 200 are connected through the network 10, so the information display transmission device 200 does not use the bluetooth module 210 or other point-to-point wireless connection module as the interfacing hardware. The information display transmission device 200 has a mobile communication module 220 (the dotted line frame indicates that the mobile communication module 220 is inside the information display transmission device 200 and cannot be seen directly), such as a 3G, 4G or 5G communication module, which is directly or indirectly connected to the I/O interface information of the server 300 through a fixed network or a mobile network (network 10), so that the server 300 and the information display transmission device 200 can be connected for communication. The functions and operation of these modules or databases are described below.
The data processing module 310 can record the log data according to a time sequence, remove local extreme values, select valid log data of the log data, and send the valid log data to a communication device. Since the detection module 110 is an electronic device, a certain physical quantity is converted into digital information composed of potential difference, and the digital information is transmitted to the Bluetooth module 210 to be converted into electromagnetic wave for transmission. The detection module 110 may detect errors, and the type transition of the digital information may be affected by the environment, thereby causing errors in the recorded data portion. Therefore, the data processing module 310 must remove the non-compliant data. A communication device, such as desktop computer 20 of fig. 1, to which data is effectively recorded. Here, the communication device may also be a notebook computer, a smart phone, or a tablet computer. The owner is a sleep medical professional (e.g., a physician, a sleep technician, a sleep manager) and uses the communication device to view the data (effective recorded data, questionnaire results, sleep days, etc.) provided by the sleep health management system.
The questionnaire processing module 320 includes a plurality of questionnaires having questions set according to different influence factors. The questionnaire is used for enabling the sleep disorder person to answer the questions about possible causes of the sleep disorder in the questionnaire according to subjective perception, and the questionnaire result can enable the sleep disorder person to have deep understanding of the condition of the sleep disorder person before the sleep disorder person finds the sleep disorder person to provide professional treatment. The method not only reduces the inquiry time during diagnosis and treatment, but also prevents sleep medical professionals from losing necessary data to sleep disorder patients. The influence factor is an item for classifying all questions asked of the sleep disorder person. According to the invention, the influencing factors are life style, nutritional diet, exercise habits, body health care, emotional personality, interpersonal emotion, job site and sleep environment. In terms of life style, the question of questionnaire may be "do you have a habit of smoking regularly", "do you have a habit of drinking regularly", "do you have a habit of sleeping in the noon nap", etc. In terms of a nutritional diet, the question of the questionnaire may be "is the exophagous family", "is not eaten with 5 parts of fish, egg and bean food every day", "is not eaten with vegetables every day, and the amount of fruits added up to about five electric rice pots" and the like. In the case of the exercise habit, the questionnaire question may be "usual habit with or without fixed exercise", "kind of exercise", "period of usual exercise", and the like. For health care, the question of questionnaire may be "there is no insomnia problem", "there will be no interruption during sleep", "there will be no frequent feelings of sleep or will be easy to yawn in the afternoon", etc. In the emotional personality, the questionnaire questions may be "do you think of a person with high self-demand", "do you think of a person who is optimistic", "will not be anxious and tense easily", and the like. In terms of interpersonal emotion, the question of the questionnaire may be "it will not be used to express the meaning of thank you to others or oneself", "it has no inflection in emotion change recently with the spouse (lover)", "it has no inflection in emotion change recently with relatives such as parents, brothers, children, etc. In terms of job sites, the question of questionnaires may be "whether it is a management hierarchy", "job will not require a lot of physical effort", "what category the nature of the job belongs to", and so on. In terms of sleeping environment, the questionnaire problem can be "sensitive to what kind of condition while sleeping", "can not be used to turn on light to sleep", "no one is sleeping at ordinary times", and the like. These questions are often asked by the sleep medical professional of the sleep disorder, and a systematic and complete questionnaire can effectively assist the sleep medical professional in understanding the sleep disorder. In operation, the questionnaire processing module 320 can provide some or all of the questionnaires to the information display and transmission device 200, so that the sleep disorder person answers, recovers the answered questionnaire results, and sends the questionnaire results and the corresponding questionnaire to the communication device. When the sleep-impaired person answers with the information display transmission device 200, the operation of the mobile application program is the main operation tool. The aforementioned operation mobile application program is activated to display at least one continuous recorded data of sleep physiological data and questionnaire on a touch screen 230 of the information display transmission device 200, so that the user can answer the questionnaire, and the questionnaire result is sent back to the questionnaire processing module 320 of the server 300.
The data tracking module 330 is connected to the data processing module 310 and is a main component for responding to the change of the sleep physiological data. To is coming toThe operation of the data tracking module 330 is better understood, please refer to fig. 2, which is a schematic diagram of the change of the sleep physiological data with time. The data tracking module 330 sets a reasonable parameter interval for each sleep physiological data, the reasonable parameter interval is a disease range data interval (V in FIG. 2) defined by sleep medicineuDenotes the upper limit, VdIndicating a lower limit). For example, the AHI: the (Apnea-Hypopnea Index, AHI) respiratory disturbance Index has an upper limit of 5 and a lower limit of 0, and belongs to the disease range data interval identified by sleep medicine. As can be seen from fig. 2, the sleep physiological data of the sleep-impaired person is below the reasonable parameter interval before the sleep health management system is used. It is noted that since sleep physiological data is gathered while sleeping, the data of fig. 2 should not be continuous, but rather be inter-regional. However, for convenience of explanation, the data is presented concatenated. Next, in the present embodiment, two kinds of sleep physiological data are used, so that the two kinds of sleep physiological data have their corresponding graphs respectively, and represent the changes (which are not necessarily improved) of the two kinds of sleep physiological data after the sleep disorder person receives treatment. The data tracking module 330 determines whether the sleep problem of the sleep-impaired person is improved or not according to whether the sleep physiological data gradually converges in the corresponding reasonable parameter interval or not within a data tracking time after the data processing module 310 sends the effective recording data to the communication device, and sends a determination result to the information display transmission device 200. The time of the sleep disorder is t0The sleep health management system is used occasionally, and t1When receiving diagnosis and treatment of sleep medical professionals, the change trend (solid line part) of the sleep physiological data gradually converges in a reasonable parameter interval. At t2Then, the data tracking module 330 finds that the sleep problem of the sleep-impaired person is improved, and the determination result is sent out with the related data and the improvement description; on the contrary, if the variation trend (dotted line) of the sleep physiological data does not converge to the reasonable parameter interval, the data tracking module 330 finds that the sleep problem of the sleep-impaired person is not improved, and the determination result is sent out with the related data and the indication of the improvement. t is t2And t1In time ofIs the data trace time. The data tracking time may be continuous days of more than one week, such as one week, 15 days, one month, etc., and the data tracking module 330 may be configured to feed back the treatment result of the sleep disorder person to the sleep disorder person as objective data within a certain time.
The sleep log database 340 can be used to store, update and provide the sleep disorder with the words, voice or audio/video data (sleep log) for the sleep condition of the sleep disorder. The information display transmission device 200 can be operated to edit the sleep log, and the sleep log is uploaded to the sleep log database 340. The sleep log repository 340 can receive the request of the communication device and send the sleep log content to the communication device. In other words, the sleep log is a record of the sleep condition of the sleep disorder person, and not only allows the sleep disorder person to understand the past sleep condition, but also allows the sleep medical professional to refer at any time to dynamically understand the sleep condition of the sleep disorder person. The sleep log can be compared with data on the wearable device to assist sleep medical professionals in more objective data understanding of sleep conditions of people with sleep disorders.
The service providing module 350 is connected to the data tracking module 330 and stores a plurality of enhanced sleep quality service information corresponding to the sleep physiological data. When the determination result of the data tracking module 330 is not improved or deteriorated, the service providing module 350 will send the enhanced sleep quality service information corresponding to the sleep physiological data to the information display and transmission device 200 to the sleep-impaired person. For example, if the sleep physiological data is blood oxygen amount, and the blood oxygen amount of the sleep disorder person during sleep shows that the time of hypoxia exceeds 10 seconds, and the blood oxygen amount is reduced by 3% or 4% of the reference value, the data tracking time is not improved. The enhanced sleep quality service information corresponding to the sleep physiological data may be a therapy of a positive pressure respirator during sleep, or wearing an in-mouth device, or designing a training of oral muscle strength, etc. to increase blood oxygen, the service providing module 350 will send the information to the sleep disorder person to give him additional improvement advice.
It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (13)
1. A sleep health management system, comprising:
a sleep physiological data gathering device, comprising:
the detection module is used for continuously detecting and collecting at least one sleep physiological data of the human body during sleep; and
a transmission module for continuously transmitting the at least one sleep physiological data to the outside;
the information display transmission device is in information connection with the transmission module and is used for recording and displaying the continuous recording data of the at least one sleep physiological data and transmitting the recording data to the outside; and
a server connected to the information display transmission device via network to obtain the recorded data, comprising:
a data processing module for recording the recorded data according to time sequence, removing local extreme value, selecting effective recorded data from the recorded data, and sending the effective recorded data to a communication device;
a questionnaire processing module, which comprises a plurality of questionnaires with questions set according to different influence factors, and is used for providing part or all of the questionnaires to the information display transmission device, so that the sleeping disorder person answers and recovers the answered questionnaire results, and sends the questionnaire results and the corresponding questionnaire to the communication device;
a data tracking module connected with the data processing module, setting a reasonable parameter interval for each sleep physiological data, judging whether the sleep problem of the sleep disorder person is improved or not according to whether the sleep physiological data gradually converges in the corresponding reasonable parameter interval or not in a data tracking time after the data processing module sends effective record data to the communication device, and sending a judgment result to the information display transmission device.
2. The sleep health management system of claim 1, wherein the sleep physiological data is brain wave frequency, respiratory airflow, pulse and arm frequency, heart rate, blood oxygen content, body movement rate, snore decibel or sleeping posture.
3. The sleep health management system of claim 1, wherein the information display and transmission device is a tablet computer or a smart phone equipped with an operating mobile application.
4. The sleep health management system of claim 3, wherein the mobile application is activated to display the continuous recorded data of the at least one sleep physiological data and the questionnaire on a touch screen of the information display and transmission device, so that the user can answer the questionnaire, and return the questionnaire result to the questionnaire processing module of the server.
5. The sleep health management system of claim 1, wherein the influencing factor is lifestyle, nutritional diet, exercise habits, physical health, emotional personality, interpersonal emotion, job site, or sleep environment.
6. The sleep health management system of claim 1, wherein the reasonable parameter interval is a sleep medically defined disease range data interval.
7. The sleep health management system of claim 1, wherein the data trace time is consecutive days of the week or more.
8. The sleep health management system of claim 1, wherein the communication device is a desktop computer, a notebook computer, a smart phone or a tablet computer.
9. The sleep health management system of claim 1, wherein the server further comprises a sleep log database for storing, updating and providing text, voice or audio/video data that are subjective to sleep conditions of the sleep disorder every day.
10. The sleep health management system of claim 1, wherein the transmission module is a bluetooth module or a Wi-Fi module.
11. The sleep health management system of claim 9 wherein the message display and transmission device is operable to edit the descriptive text, voice or audio/video data and upload the descriptive text, voice or audio/video data to the sleep log database.
12. The sleep health management system of claim 10, wherein the sleep log database receives the request from the communication device and sends the descriptive text, voice or audio/video data to the communication device.
13. The sleep health management system of claim 1, wherein the server further comprises a service providing module, connected to the data tracking module, for storing a plurality of enhanced sleep quality services corresponding to the sleep physiological data, and sending the enhanced sleep quality services corresponding to the sleep physiological data to the information display and transmission device when the determination result of the data tracking module is not improved or deteriorated.
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