CN103810369A - COPD (Chronic Obstructive Pulmonary Disease) telemedicine monitoring system based on internet of things and implementation method thereof - Google Patents

Abstract

The invention relates to a COPD (Chronic Obstructive Pulmonary Disease) telemedicine monitoring system based on internet of things and an implementation method thereof, and belongs to the crossing field of the internet of things, an embedded system and GPRS (General Packet Radio Service)/3G network communication, and more specifically, COPD medical equipment, a computer of a doctor service platform and a computer of a patient service platform are organized together by the internet of things. The COPD telemedicine monitoring system based on the internet of things comprises at least one piece of COPD medical equipment, at least one COPD medical equipment data synchronous communication terminal, a data communication service system, a patient service platform subsystem and a doctor service platform subsystem, wherein the COPD medical equipment can be connected to an internet, and is capable of displaying the physiological parameters of a patient to a doctor in real time, and a reliable basis is provided for the doctor to master the disease condition of the patient. By means of the doctor service platform, the doctor can timely modify a medical advice in allusion to the disease condition of the patient, and the cure speed of the disease condition of the patient is improved.

Description

COPD telemedicine monitoring system and its implementation based on Internet of Things

Technical field

The present invention relates to a kind of COPD telemedicine monitoring system and its implementation based on Internet of Things, by Internet of Things, the computer of COPD Medical Devices, doctor's operating platform, patient's operating platform computer are organized together specifically, belong to the crossing domain of Internet of Things, embedded, GPRS/3G network communication.

Background technology

Chronic obstructive pulmonary disease (Chronic Obstructive Pulmonary Disease, COPD) is the breathing problem that chronic progressive external increases the weight of, and occupies the first place of China's disease burden, is burden on society disease.Explore its effective methods for the treatment of and be subject to national great attention always, be put into the planning of national health science and technology Eleventh Five-Year Development Plan.Long-term domiciliary oxygen therapy is the critical treatment method that improves COPD survival.But the TC of traditional-family's oxygen therapy all lacks effective monitoring and Explore of Unified Management Ideas, COPD patient is poor to home oxygen therapy compliance, treat lack of standardization, particularly at COPD Acute Exacerbation Period (Acute Exacerbation of COPD, AECOPD), doctor can not give the real-time monitoring of patient and treatment.

Internet of Things is by information sensing equipment such as radio-frequency (RF) identification (RFID), infrared inductor, GPS, laser scanners, by the agreement of agreement, any article are connected with internet, carry out message exchange and communicate by letter, to realize a kind of network of intellectuality identification, location, tracking, monitoring and management to article.

Wireless sensor network (Wireless Sensor Network, WSN) is born in the end of the nineties in last century, is that US military proposes in order to carry out the new technology of battlefield monitoring at first.It combines the technology such as sensor, embedded calculating, modern network and radio communication, distributed information processing.Network structure is simple, extendability is strong, but also can be connected with existing other diverse network.Within 2003, Massachusetts Institute of Technology's technology review is classified wireless sensor network as one of 10 large new technologies that change in the world.Because wireless sensor network has superpower adaptivity, the research in medical industry and application have obtained showing great attention to of various countries.In countries such as America and Europes, about wireless sensor network, the research in medical industry application starts to walk early.More representational applied research has: the equipment such as the small-sized wearable wireless pulse sphygmomanometer of Harvard University and the exploitation of Boston medical centre, can be delivered to PDA or notebook computer etc. by wireless network the patient's who collects heart rate, blood pressure etc. to be further processed; The scientist of University of Rochester uses wireless sensor network to create an intelligent medical room, uses smart-dust(Smart Dust) monitor the activity situation of occupant's physiologic information (blood pressure, P&R), sleeping posture and whole day.

At present, at China's medical resource wretched insufficiency, and also distribution and unbalanced, most medical resources all concentrate on city, particularly concentrate in the large hospital in city, and urban community health services medical resource is generally weak.The patient of current most of COPD is in community or family is equipped with related medical equipment (lung ventilator, oxygen machine etc.), then need the regular hospital that goes to submit to some physiological parameters of Medical Devices record in doctor's time period, so that doctor diagnoses patient according to these data, and make further therapeutic scheme.Like this see the mode of examining, patient's the state of an illness can not pass to doctor there the very first time timely, likely delay treatment opportunity, and patient also can be because of there is very large region distance between family and hospital, require a great deal of time, money is often travelled to and fro between between family and hospital.In recent years, along with popularizing of personal computer, the rise of Internet of Things, the reduction of mobile network communication cost, the further raising of computer software technology.The Medical Devices that patient used by Internet of Things and the computer of working doctor organize together and become a reality and possibility.

Summary of the invention

Can not be connected with internet for current COPD Medical Devices, can not transmit in real time patient's physiological parameter, propose a kind of COPD telemedicine monitoring system and its implementation based on Internet of Things.

The technical scheme that the present invention adopted is for achieving the above object: a kind of COPD telemedicine monitoring system based on Internet of Things, this system architecture is three layers of upper, middle and lowers, upper strata is the doctor workstation centered by database and AECOPD analysis software, middle level is Internet communication system, and lower floor is patient treatment system.Lower floor comprises:

At least one COPD Medical Devices, for the direct treatment to patient;

At least a set of physio-parameter detection system, for detection of physiological parameters such as patient's blood oxygen saturation, pulse frequency and respiratory rates, assessment result for the treatment of.

At least one COPD Medical Devices data synchronous communication terminal, for reading the real-time running state data such as the temperature, pressure, oxygen gas flow rate, oxygen concentration of COPD Medical Devices, arranges the treatment parameter of COPD Medical Devices; By data interaction between GPRS/3G and data communication service system;

Patient's operating platform subsystem, accessing Internet, access WEB service realizes data transmission, checks that for patient doctor is its doctor's advice information of opening, submits consulting to;

Upper strata comprises:

Data communication service system, accessing Internet, for carrying out network communication with COPD Medical Devices data synchronous communication terminal;

Doctor's operating platform subsystem, accessing Internet, access WEB service realizes data transmission, comprises doctor workstation and AECOPD analysis software, for doctor's monitored patient state of an illness, sends doctor's advice instruction.

Described COPD Medical Devices are lung ventilator and/or oxygen machine.

Described COPD Medical Devices data synchronous communication terminal is connected by data line with COPD Medical Devices.

Described COPD Medical Devices data synchronous communication terminal is connected with data communication service system by GPRS or 3G network.

Described patient's operating platform subsystem moves the software systems based on B/S framework.

Described doctor's operating platform subsystem moves the software systems based on B/S framework.

Described data communication service system comprises:

Data communication server, is used status data and physiological parameter for receiving the COPD Medical Devices of uploading, and sends and instruction is set to COPD Medical Devices data synchronous communication terminal;

Data center, for receiving and store the data of whole system.

COPD telemedicine monitoring system based on Internet of Things is realized a method for long distance monitoring, comprising:

COPD Medical Devices data synchronous communication terminal arranges after the treatment parameter of COPD Medical Devices, and COPD Medical Devices gather patient's physiological parameter;

COPD Medical Devices data synchronous communication terminal reads the COPD running status of medical device data that represent physiological parameter in real time;

COPD Medical Devices data synchronous communication terminal is uploaded COPD running status of medical device data and physiological parameter be saved in data communication service system;

The COPD running status of medical device data and the physiological parameter that are stored in data communication service system are showed doctor by doctor's operating platform subsystem, and doctor's advice is uploaded and is saved in data communication service system.

Also comprise that patient's operating platform subsystem reads the corresponding doctor's advice being stored in data communication service system.

Also comprise that patient's operating platform subsystem uploads patient's consultation information to data communication service system.

The present invention has the following advantages:

1.COPD Medical Devices can be connected with internet, can in real time patient's physiological parameter be represented to doctor, and doctor is held to conditions of patients reliable basis.Doctor carries out doctor's advice follow-up for conditions of patients by internet timely, improves the healing speed of conditions of patients.

2. reduce the expense that patient sees a doctor, saved the time to diagnose the illness.

3. pair patient in hospital blockage problem has played the effect of shunting, thereby improved, seeing of hospital examined efficiency, increase patient sees a doctor satisfaction.

4. have a extensive future.

Accompanying drawing explanation

Fig. 1 is system architecture schematic diagram of the present invention;

Fig. 2 is implementation method process flow diagram of the present invention.

Embodiment

Below in conjunction with drawings and Examples, the present invention is described in further detail.

As shown in Figure 1, COPD telemedicine monitoring system based on Internet of Things, comprise at least one COPD Medical Devices, at least a set of physio-parameter detection system, at least one COPD Medical Devices data synchronous communication terminal, data communication service system, patient's operating platform subsystem and doctor's operating platform subsystem.Described data communication service system comprises data communication server and for receiving and store the data center of whole system data.

Design and the realization of COPD Medical Devices sync cap: in COPD Medical Devices primary control program, provide the software interface function that reads and arrange device data and physiological parameter, with USB interface form and COPD Medical Devices synchronous communication terminal connecting communication.

Design and the realization of COPD Medical Devices synchronous communication terminal: basic composition comprises GPRS module or 3G module, embedded control system, USB communication module.COPD Medical Devices synchronous communication terminal is by USB and the communication of COPD Medical Devices, by GPRS module or 3G module and the communication of data communication service system.Coordinated to control by embedded system, receive on the one hand the instruction of data communication service system transmission and COPD Medical Devices are synchronously set, the real-time status Data Concurrent that gathers on the other hand COPD Medical Devices is delivered to data communication service system.COPD Medical Devices synchronous communication terminal is an electronic circuit system with wireless communication function based on embedded software control.

Data communication service system, operates in data communication server, and operates on public network, carries out communication by ICP/IP protocol and data communication module.The data that on the one hand COPD Medical Devices synchronous communication terminal sended over are carried out Data Analysis, and the data after resolving are stored in data center.Obtain on the other hand the instruction that will send to COPD Medical Devices, and send to corresponding COPD Medical Devices synchronous communication terminal.Data communication service system and COPD Medical Devices synchronous communication terminal need a self-defining communications protocol to guarantee the safety and stability of communication.

WEB server is moving the service interface software program that supplies doctor's operating platform subsystem and patient's operational subsystems to call.

Design and the realization of doctor's operating platform subsystem: this subsystem is that the system based on B/S framework is distributed on WEB server, major function is to store data as basic data in database, use the important physiological parameter in device procedures to show doctor patient in friendly mode (as chart etc.), show the information that patient exchanges with doctor, doctor can be issued the parameter that patient device uses is set in conjunction with doctor's treatment experience for patient's physiological parameter by this subsystem, for patient opens doctor's advice, answer patient the problem of consulting, be handed down to the relevant questionnaire of patient etc.Doctor's operating platform subsystem is the ordinary PC of an operation corresponding software.It shows patient's physiological parameter information, patient's counseling problem etc. on the one hand, doctor opens doctor's advice according to patient's physiological parameter situation on the other hand, and the parameter of patient medical equipment can be set, pass to Data Control Subsystem Based by the service interface on WEB server, the Medical Devices that finally send to patient get on.

Design and the realization of patient's operating platform subsystem: this subsystem is that the system based on B/S framework is distributed on WEB server, major function is to store data as basic data in database, check the counseling problem that doctor's advice that doctor opens and doctor answer, fill in and submit questionnaire that doctor issues etc. to.Patient's operating platform subsystem is the ordinary PC of an operation corresponding software.Patient can view by it the doctor's advice situation that doctor opens on the one hand, and according to doctor's the concrete execution of going, can also pass through it Xiang doctor's counseling problem, and doctor carries out communication exchange.

As shown in Figure 2, the COPD telemedicine monitoring system based on Internet of Things is realized the method for long distance monitoring, comprising:

COPD Medical Devices data synchronous communication terminal arranges after the treatment parameter of COPD Medical Devices, and COPD Medical Devices gather patient's physiological parameter;

COPD Medical Devices data synchronous communication terminal reads physiological parameter COPD running status of medical device data in real time; COPD running status of medical device data and physiological parameter are uploaded and are saved in data communication service system;

The COPD running status of medical device data and the physiological parameter that are stored in data communication service system are showed doctor by doctor's operating platform subsystem, and will under new doctor's advice, pass and be saved in data communication service system.

Also comprise that patient's operating platform subsystem reads the corresponding doctor's advice being stored in data communication service system.

Also comprise that patient's operating platform subsystem uploads patient's consultation information to data communication service system.

Claims (9)

1. the COPD telemedicine monitoring system based on Internet of Things, it is characterized in that, this system architecture is three layers of upper, middle and lowers, and upper strata is the doctor workstation centered by database and AECOPD analysis software, middle level is Internet communication system, and lower floor is patient treatment system;

Lower floor comprises:

At least one has the COPD Medical Devices of internet of things functional, for the direct treatment to patient;

At least a set of physio-parameter detection system, for detection of physiological parameters such as patient's blood oxygen saturation, pulse frequency and respiratory rates, assessment result for the treatment of;

At least one COPD Medical Devices data synchronous communication terminal, for reading the real-time running state data such as temperature, pressure, oxygen gas flow rate, oxygen concentration of COPD Medical Devices, the treatment parameter of COPD Medical Devices is set, by data interaction between GPRS/3G and data communication service system;

Patient's operating platform subsystem, accessing Internet, access WEB service realizes data transmission, checks that for patient doctor is its doctor's advice information of opening, submits consulting to;

Upper strata comprises:

Data communication service system, accessing Internet, for carrying out network communication with data communication terminal;

Doctor's operating platform subsystem, comprises doctor workstation and AECOPD analysis software, accessing Internet, and access WEB service realizes data transmission, for doctor's monitored patient state of an illness, sends doctor's advice instruction.

2. the COPD telemedicine monitoring system based on Internet of Things according to claim 1, is characterized in that, described COPD Medical Devices are lung ventilator and/or oxygen machine.

3. the COPD telemedicine monitoring system based on Internet of Things according to claim 1, is characterized in that, described COPD Medical Devices data synchronous communication terminal is connected by data line with COPD Medical Devices.

4. the COPD telemedicine monitoring system based on Internet of Things according to claim 1, is characterized in that, described patient's operating platform subsystem moves the software systems based on B/S framework.

5. the COPD telemedicine monitoring system based on Internet of Things according to claim 1, is characterized in that, described doctor's operating platform subsystem moves the software systems based on B/S framework.

6. the COPD telemedicine monitoring system based on Internet of Things according to claim 1, is characterized in that, described data communication service system comprises:

Data communication server, is used status data and physiological parameter for receiving the COPD Medical Devices of uploading, and sends and instruction is set to COPD Medical Devices data synchronous communication terminal;

Data center, for receiving and store the data of whole system.

7. adopt the COPD telemedicine monitoring system based on Internet of Things described in claim 1-6 any one claim to realize a method for long distance monitoring, it is characterized in that, comprising:

COPD Medical Devices data synchronous communication terminal arranges after the treatment parameter of COPD Medical Devices, and COPD Medical Devices gather patient's physiological parameter;

COPD Medical Devices data synchronous communication terminal reads the COPD running status of medical device data that represent physiological parameter in real time; COPD running status of medical device data and physiological parameter are uploaded and are saved in data communication service system;

The COPD running status of medical device data and the physiological parameter that are stored in data communication service system are showed doctor by doctor's operating platform subsystem, and doctor's advice is uploaded and is saved in data communication service system.

8. the COPD telemedicine monitoring system based on Internet of Things is realized the method for long distance monitoring according to claim 7, it is characterized in that, also comprises that patient's operating platform subsystem reads the corresponding doctor's advice being stored in data communication service system.

9. the COPD telemedicine monitoring system based on Internet of Things is realized the method for long distance monitoring according to claim 7, it is characterized in that, also comprises that patient's operating platform subsystem uploads patient's consultation information to data communication service system.

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