CN104224163A - Sleep respiratory disease remote monitoring and managing system based on Internet of Things - Google Patents

Abstract

The invention provides a sleep respiratory disease remote monitoring and managing system based on Internet of Things. The sleep respiratory disease remote monitoring and managing system comprises sleep respiratory diagnosis and treatment centers, a plurality of doctor terminals and patient terminals, wherein the doctor terminals are mutually connected and are connected with the sleep respiratory diagnosis and treatment centers; the patient terminals are connected with at least one doctor terminal and at least one sleep respiratory diagnosis and treatment center; the patient terminals are used for acquiring, transmitting and storing electrophysiological data of a human body, and displaying waveforms of the data; the doctor terminals are used for acquiring, transmitting and storing the electrophysiological data of the human body, displaying waveforms and analyzing to generate a diagnosis report; the sleep respiratory diagnosis and treatment centers are used for managing the electrophysiological data of the human body and storing historical data of patients. By adopting wide area network and cloud technologies, the interconnection of managing centers, doctors and the patients in different hospitals is realized, and advantaged medical resources are easily shared; the doctors and the patients can communicate conveniently in real time and the disease states of the patients are diagnosed in time.

Description

Based on sleep breathing disorders remote monitoring and the management system of Internet of Things

Technical field

The present invention relates to medical management system, particularly, relate to a kind of sleep breathing disorders remote monitoring based on Internet of Things and management system.

Background technology

Sleep apnea full name is Sleep Apnea-hypopnea Syndrome (OSAHS), because upper respiratory tract soft tissue subsides, blocks and the sleep disordered breathing disease of the asphyxia formed or hypoventilation when being a kind of sleep.OSAHS clinically main manifestations is the symptoms such as hypoventilation, low blood oxygen, snoring.Modern medicine study shows, the chronic diseases such as OSAHS and heart disease, hypertension and diabetes have certain dependency.Therefore, be necessary to carry out examination to OSAHS disease.

Simple and easy examination at present to OSAHS disease; mainly through gathering the electric-physiology parameters such as the electrocardio of patient, blood oxygen, mouth and nose air-flow, breast respiratory movement signal, abdominal respiration motor message, the sound of snoring and position; then these parameters are analyzed; then judge whether patient has asphyxia or low ventilation, and provide concrete type.

The existing Sleep Apnea-hypopnea Syndrome examination in market equipment, although can carry out data acquisition and be uploaded to local computer, do not possess long-range real-time diagnosis and treatment function, patient under the guidance of medical practitioner, can only come hospital and does corresponding inspection.This is not only high to equipment use personnel requirement, and increases the medical treatment cost of patient.

Summary of the invention

For defect of the prior art, the object of this invention is to provide a kind of sleep breathing disorders remote monitoring based on Internet of Things and management system.System utilizes modern advanced wireless communication technology, wan technology, computer technology etc., by each component part of system, constitutes a complete system.

According to the sleep breathing disorders remote monitoring based on Internet of Things provided by the invention and management system, comprise sleep-respiratory diagnosis and treatment center, doctor terminal and patient terminal;

Wherein, be interconnected between multiple described doctor terminal, described doctor terminal connects described sleep-respiratory diagnosis and treatment center; Patient terminal connects at least one doctor terminal and connects sleep-respiratory diagnosis and treatment center described at least one;

Described patient terminal is used for the collection of human body electric physiological data, transmission, storage and waveform display; Described doctor terminal is used for collection, transmission, storage, waveform display, the analysis of human body electric physiological data and generates diagnosis report; Described sleep-respiratory diagnosis and treatment center is used for managing and store patient medical record data human body electric physiological data.

Preferably, described patient terminal comprises the first connected dormant data collecting cassette and the first controller; Described first controller connects described sleep-respiratory diagnosis and treatment center and described doctor terminal;

First dormant data collecting cassette is used for the collection of human body electric physiological data;

First controller is used for carrying out waveform display to human body electric physiological data and human body electric physiological data being sent to sleep-respiratory diagnosis and treatment center and doctor terminal.

Preferably, described doctor terminal comprises the second connected dormant data collecting cassette and second controller, and described second controller connects described sleep-respiratory diagnosis and treatment center and described patient terminal;

Second dormant data collecting cassette is responsible for the collection of human body electric physiological data;

Second controller is used for carrying out waveform display, analysis to human body electric physiological data and generate diagnosis report and human body electric physiological data and diagnosis report are sent to sleep breathing diagnosis and treatment center and patient terminal.

Preferably, described sleep-respiratory diagnosis and treatment center comprises total institute sleep-respiratory diagnosis and treatment center and branch's sleep-respiratory diagnosis and treatment center;

Branch's sleep-respiratory diagnosis and treatment center connects described total institute's sleep-respiratory diagnosis and treatment center; Described patient terminal connects described branch sleep-respiratory diagnosis and treatment center or described total institute's sleep-respiratory diagnosis and treatment center; Described doctor terminal connects described branch sleep-respiratory diagnosis and treatment center or described total institute's sleep-respiratory diagnosis and treatment center;

Described branch's sleep diagnosis and treatment center is used for carrying out store and management to the medical record data of branch patient; Described total institute's sleep-respiratory diagnosis and treatment center is used for management and the patient medical record data storage of total institute of the medical record data of each branch patient.

Preferably, also comprise the first wireless receiving box, described first dormant data collecting cassette connects described first controller by described first wireless receiving box;

First wireless receiving box is used for the human body electric physiological data of real-time reception dormant data collecting cassette transmission and is sent to described first controller.

Preferably, also comprise the second wireless receiving box, described second dormant data collecting cassette connects described second controller by described second wireless receiving box;

Second wireless receiving box is used for the human body electric physiological data of real-time reception second dormant data collecting cassette transmission and is sent to described second controller.

Preferably, human body electric physiological data comprises electrocardiosignal, blood oxygen signal, breast respiratory movement signal, abdominal respiration motor message and mouth and nose airflow signal.

Preferably, described first controller adopts PC platform or mobile platform.

Preferably, the first dormant data collecting cassette and the second dormant data collecting cassette comprise processor, nasal oxygen tube, electrocardioelectrode, lung respiratory movement sensor, abdominal respiration motion sensor, blood oxygen probe, mouth and nose airflow signal fortune treatment circuit, ECG signal processing circuit, breast respiratory movement pre-process circuit, abdominal respiration exercise preconditioning circuit, blood oxygen module, radio receiving transmitting module, memory module, clock module and alarm module;

Described processor is provided with AD conversion module, UART interface, SPI interface, GPIO interface;

Described nasal oxygen tube connects described AD conversion module by described mouth and nose airflow signal fortune treatment circuit; Described electrocardioelectrode connects described AD conversion module by ECG signal processing circuit; Described breast respiratory movement transducer connects described AD conversion module by described breast respiratory movement pre-process circuit; Described abdominal respiration motion sensor connects described AD conversion module by described abdominal respiration exercise preconditioning circuit; Described blood oxygen probe is by UART interface described in described blood oxygen model calling;

Described radio receiving transmitting module connects described SPI interface; Described memory module, described clock module and described alarm module connect described GPIO interface.

Compared with prior art, the present invention has following beneficial effect:

1, present invention utilizes wide area network and cloud, what achieve between sleep-respiratory diagnosis and treatment center, doctor, patient is interconnected, achieves sharing of advantage medical resource, facilitates the timely communication of doctor and patient, make timely diagnosis to conditions of patients;

2, in the present invention, the store and management of numerous patient medical record data have employed cloud, and the shortening of the access time of patient medical record data and efficiency are greatly improved;

3, in the present invention between the data acquisition box of doctor terminal and patient terminal and receiving box, have employed RF wireless communication technology, achieve image data waveform to show in real time at host computer, whether each sensor is worn correct like this, can be verified in time;

4, present invention employs the mobile platform based on Android platform, patient can check data waveform on mobile phone or IPAD, and can pass through WIFI or bluetooth, directly by gather data upload to the server of control data corporation.

Accompanying drawing explanation

By reading the detailed description done non-limiting example with reference to the following drawings, other features, objects and advantages of the present invention will become more obvious:

Fig. 1 is structural representation of the present invention;

Fig. 2 is the structural representation of doctor terminal in the present invention;

Fig. 3 is the structural representation of the patient terminal of Based PC platform in the present invention;

Fig. 4 is the structural representation based on the patient terminal of Android platform in the present invention;

Fig. 5 is the structural representation of data acquisition box in the present invention.

Detailed description of the invention

Below in conjunction with specific embodiment, the present invention is described in detail.Following examples will contribute to those skilled in the art and understand the present invention further, but not limit the present invention in any form.It should be pointed out that to those skilled in the art, without departing from the inventive concept of the premise, some distortion and improvement can also be made.These all belong to protection scope of the present invention.

As shown in Figure 1, the sleep breathing disorders remote monitoring based on Internet of Things provided by the invention and management system, comprise total institute's sleep-respiratory diagnosis and treatment center, each branch's sleep-respiratory diagnosis and treatment center, doctor terminal and patient terminal.

Branch's sleep-respiratory diagnosis and treatment center connects described total institute's sleep-respiratory diagnosis and treatment center; Described patient terminal connects described branch sleep-respiratory diagnosis and treatment center or described total institute's sleep-respiratory diagnosis and treatment center; Described doctor terminal connects described branch sleep-respiratory diagnosis and treatment center or described total institute's sleep-respiratory diagnosis and treatment center; Be interconnected between multiple described doctor terminal.

Described total institute's sleep-respiratory diagnosis and treatment center comprises server, data storage device and server management software etc., mainly manages and store the patient medical record data of total institute to the control data corporation of each branch; Described branch's sleep-respiratory diagnosis and treatment center comprises server, data storage device and server management software etc., mainly manages and store the patient medical record data of branch to the control data corporation of each branch;

Described doctor terminal comprises the first dormant data collecting cassette, the first wireless receiving box and the first controller, first dormant data collecting cassette is responsible for the collection of human body electric physiological data, the data connecing the first receipts dormant data collecting cassette transmission are in real time responsible for by first wireless receiving box, and the software of the first controller mainly carries out waveform display, analysis to data and generates diagnosis report; Described first controller adopts PC platform or mobile platform.

Described patient terminal comprises the second data acquisition box, the second wireless receiving box and second controller, second data acquisition box is responsible for the collection of human body electric physiological data, the data that real-time reception second dormant data collecting cassette sends are responsible for by second wireless receiving box, second controller mainly carries out waveform display to data, does not have analysis and Report Generation Function Based.

Human body electric physiological data comprises electrocardiosignal, blood oxygen signal, breast respiratory movement signal, abdominal respiration motor message and mouth and nose airflow signal.One dormant data collecting cassette and the second dormant data collecting cassette comprise processor, nasal oxygen tube, electrocardioelectrode, lung respiratory movement sensor, abdominal respiration motion sensor, blood oxygen probe, mouth and nose airflow signal fortune treatment circuit, ECG signal processing circuit, breast respiratory movement pre-process circuit, abdominal respiration exercise preconditioning circuit, blood oxygen module, radio receiving transmitting module, memory module, clock module and alarm module;

Described processor is provided with AD conversion module, UART interface, SPI interface, GPIO interface; Described nasal oxygen tube connects described AD conversion module by described mouth and nose airflow signal fortune treatment circuit; Described electrocardioelectrode connects described AD conversion module by ECG signal processing circuit; Described breast respiratory movement transducer connects described AD conversion module by described breast respiratory movement pre-process circuit; Described abdominal respiration motion sensor connects described AD conversion module by described abdominal respiration exercise preconditioning circuit; Described blood oxygen probe is by UART interface described in described blood oxygen model calling; Described radio receiving transmitting module connects described SPI interface; Described memory module, described clock module and described alarm module connect described GPIO interface.

Specific works flow process of the present invention is as follows:

Data acquisition, is specially the electrocardio of dormant data collecting cassette collection patient, blood oxygen, breast respiratory movement signal, abdominal respiration motor message and mouth and nose airflow signal;

Dormant data collecting cassette data upload, is specially, the data upload of patient terminal, for PC platform, the data of dormant data collecting cassette collection can utilize wireless receiving box, wirelessly, real-time is uploaded to PC, or can USB connecting line be passed through, be uploaded to PC dynamically, for the Android platform of movement, the data that dormant data collecting cassette gathers, directly by USB connecting line, real-time is transferred to platform, and stores data in the storage card of platform;

The data upload of doctor terminal, for doctor terminal, the corresponding PC platform of dormant data collecting cassette, therefore, image data can utilize wireless receiving box, wirelessly, real-time is uploaded to PC, or can pass through USB connecting line, is uploaded to PC dynamically;

Data remote transmission, is specially and uploads to the PC platform of patient terminal or the data of mobile platform, by wide area network, medical record data is transferred to sleep-respiratory diagnosis and treatment center;

Doctor terminal data are transmitted: doctor terminal sends access instruction by the data center to sleep-respiratory diagnosis and treatment center, the medical record data at data download center, and medical record data is analyzed, diagnosis report after analysis, the data center uploading to sleep-respiratory diagnosis and treatment center preserves, and transmission is simultaneously a to patient terminal, allows patient know the diagnostic comments of doctor.

Above specific embodiments of the invention are described.It is to be appreciated that the present invention is not limited to above-mentioned particular implementation, those skilled in the art can make various distortion or amendment within the scope of the claims, and this does not affect flesh and blood of the present invention.

Claims (9)

1. based on sleep breathing disorders remote monitoring and the management system of Internet of Things, it is characterized in that, comprise sleep-respiratory diagnosis and treatment center, doctor terminal and patient terminal;

Wherein, be interconnected between multiple described doctor terminal, described doctor terminal connects described sleep-respiratory diagnosis and treatment center; Patient terminal connects at least one doctor terminal and connects sleep-respiratory diagnosis and treatment center described at least one;

Described patient terminal is used for the collection of human body electric physiological data, transmission, storage and waveform display; Described doctor terminal is used for collection, transmission, storage, waveform display, the analysis of human body electric physiological data and generates diagnosis report; Described sleep-respiratory diagnosis and treatment center is used for managing and store patient medical record data human body electric physiological data.

2. the sleep breathing disorders remote monitoring based on Internet of Things according to claim 1 and management system, is characterized in that, described patient terminal comprises the first connected dormant data collecting cassette and the first controller; Described first controller connects described sleep-respiratory diagnosis and treatment center and described doctor terminal;

First dormant data collecting cassette is used for the collection of human body electric physiological data;

First controller is used for carrying out waveform display to human body electric physiological data and human body electric physiological data being sent to sleep-respiratory diagnosis and treatment center and doctor terminal.

3. the sleep breathing disorders remote monitoring based on Internet of Things according to claim 2 and management system, it is characterized in that, described doctor terminal comprises the second connected dormant data collecting cassette and second controller, and described second controller connects described sleep-respiratory diagnosis and treatment center and described patient terminal;

Second dormant data collecting cassette is responsible for the collection of human body electric physiological data;

Second controller is used for carrying out waveform display, analysis to human body electric physiological data and generate diagnosis report and human body electric physiological data and diagnosis report are sent to sleep breathing diagnosis and treatment center and patient terminal.

4. the sleep breathing disorders remote monitoring based on Internet of Things according to claim 1 and management system, is characterized in that, described sleep-respiratory diagnosis and treatment center comprises total institute sleep-respiratory diagnosis and treatment center and branch's sleep-respiratory diagnosis and treatment center;

Branch's sleep-respiratory diagnosis and treatment center connects described total institute's sleep-respiratory diagnosis and treatment center; Described patient terminal connects described branch sleep-respiratory diagnosis and treatment center or described total institute's sleep-respiratory diagnosis and treatment center; Described doctor terminal connects described branch sleep-respiratory diagnosis and treatment center or described total institute's sleep-respiratory diagnosis and treatment center;

Described branch's sleep diagnosis and treatment center is used for carrying out store and management to the medical record data of branch patient; Described total institute's sleep-respiratory diagnosis and treatment center is used for management and the patient medical record data storage of total institute of the medical record data of each branch patient.

5. the sleep breathing disorders remote monitoring based on Internet of Things according to claim 2 and management system, it is characterized in that, also comprise the first wireless receiving box, described first dormant data collecting cassette connects described first controller by described first wireless receiving box;

First wireless receiving box is used for the human body electric physiological data of real-time reception dormant data collecting cassette transmission and is sent to described first controller.

6. the sleep breathing disorders remote monitoring based on Internet of Things according to claim 3 and management system, it is characterized in that, also comprise the second wireless receiving box, described second dormant data collecting cassette connects described second controller by described second wireless receiving box;

Second wireless receiving box is used for the human body electric physiological data of real-time reception second dormant data collecting cassette transmission and is sent to described second controller.

7. the sleep breathing disorders remote monitoring based on Internet of Things according to claim 1 and management system, is characterized in that, human body electric physiological data comprises electrocardiosignal, blood oxygen signal, breast respiratory movement signal, abdominal respiration motor message and mouth and nose airflow signal.

8. the sleep breathing disorders remote monitoring based on Internet of Things according to claim 2 and management system, is characterized in that, described first controller adopts PC platform or mobile platform.

9. the sleep breathing disorders remote monitoring based on Internet of Things according to claim 3 and management system, it is characterized in that, the first dormant data collecting cassette and the second dormant data collecting cassette comprise processor, nasal oxygen tube, electrocardioelectrode, lung respiratory movement sensor, abdominal respiration motion sensor, blood oxygen probe, mouth and nose airflow signal fortune treatment circuit, ECG signal processing circuit, breast respiratory movement pre-process circuit, abdominal respiration exercise preconditioning circuit, blood oxygen module, radio receiving transmitting module, memory module, clock module and alarm module;

Described processor is provided with AD conversion module, UART interface, SPI interface, GPIO interface;

Described nasal oxygen tube connects described AD conversion module by described mouth and nose airflow signal fortune treatment circuit; Described electrocardioelectrode connects described AD conversion module by ECG signal processing circuit; Described breast respiratory movement transducer connects described AD conversion module by described breast respiratory movement pre-process circuit; Described abdominal respiration motion sensor connects described AD conversion module by described abdominal respiration exercise preconditioning circuit; Described blood oxygen probe is by UART interface described in described blood oxygen model calling;

Described radio receiving transmitting module connects described SPI interface; Described memory module, described clock module and described alarm module connect described GPIO interface.