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CN107092799B - Vital sign data management system and method based on cloud computing - Google Patents

Vital sign data management system and method based on cloud computing Download PDF

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Publication number
CN107092799B
CN107092799B CN201710299297.XA CN201710299297A CN107092799B CN 107092799 B CN107092799 B CN 107092799B CN 201710299297 A CN201710299297 A CN 201710299297A CN 107092799 B CN107092799 B CN 107092799B
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data
vital sign
sign data
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cloud computing
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CN107092799A (en
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陈兵
陈新云
陈雷
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Chengdu Yunchufang Technology Co ltd
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L67/00Network arrangements or protocols for supporting network services or applications
    • H04L67/01Protocols
    • H04L67/12Protocols specially adapted for proprietary or special-purpose networking environments, e.g. medical networks, sensor networks, networks in vehicles or remote metering networks
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02ATECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
    • Y02A90/00Technologies having an indirect contribution to adaptation to climate change
    • Y02A90/10Information and communication technologies [ICT] supporting adaptation to climate change, e.g. for weather forecasting or climate simulation

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  • Engineering & Computer Science (AREA)
  • Health & Medical Sciences (AREA)
  • Computing Systems (AREA)
  • General Health & Medical Sciences (AREA)
  • Medical Informatics (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Measuring And Recording Apparatus For Diagnosis (AREA)

Abstract

The invention relates to a vital sign data management system and method based on cloud computing, wherein the system comprises a vital sign data source module, an information processing module, a communication module, a cloud computing module, a cloud database and an intelligent terminal; the information processing module, the cloud computing module, the cloud database and the intelligent terminal are all connected with the communication module, and the vital sign data source module is connected with the information processing module. According to the invention, the working efficiency of medical staff is improved from a basic acquisition link by means of a cloud computing technology, the error probability is reduced, the vital sign data is automatically acquired and uploaded to the server, the vital sign data is analyzed and processed by the cloud computing module and stored in the cloud database, so that the medical staff can monitor, consult and update vital sign data of a patient in real time through the corresponding authorized intelligent terminal, a large number of ward rounds and bedside tests are omitted, and the medical staff can perform high-efficiency and high-accuracy examination items on the patient according to the real-time monitoring data.

Description

Vital sign data management system and method based on cloud computing
Technical Field
The invention belongs to the technical field of Internet application, and particularly relates to a vital sign data management system and method based on cloud computing.
Background
The research hot spot in the field of medical appliances at present is mainly effective collection and processing of weak vital sign parameters of human bodies. In the field of medical instrument research, vital sign acquisition is a primary link of physiological information analysis and processing, and the quality of acquired vital sign data has a decisive influence on later analysis. The medical instruments used for acquiring the vital sign data of the human body are all in a constrained transmission mode, and the applicability is not ideal. In the rapid development of information technology today, internet technology is penetrating into various industries. Along with the maturity of vital sign acquisition technology and cloud computing technology, vital sign data and cloud computing application have gradually become an application trend in hospitals.
Disclosure of Invention
The vital sign data management system and method based on cloud computing can collect and upload various vital sign data of organisms, and have the advantages of safely, accurately and stably collecting and processing the vital sign data.
The technical scheme for solving the technical problems is as follows:
the vital sign data management system based on cloud computing comprises a vital sign data source module, an information processing module, a communication module, a cloud computing module, a cloud database and an intelligent terminal;
the information processing module, the cloud computing module, the cloud database and the intelligent terminal are all connected with the communication module, and the vital sign data source module is connected with the information processing module;
the vital sign data source module is used for acquiring vital sign data and transmitting the vital sign data to the information processing module; the vital sign data comprise heart rate data, pulse data, blood pressure data, blood oxygen data, blood sugar data, body temperature data, respiratory data, electrocardio data, electroencephalogram data, personal posture data and intelligent early warning data;
the information processing module is used for receiving vital sign data, classifying, preprocessing and packaging the vital sign data, and transmitting the vital sign data after preprocessing and packaging to the communication module;
the communication module is used for being connected with the Internet and sending the encapsulated vital sign data to the cloud computing module and the cloud database through a wired and/or wireless network;
the cloud computing module is used for performing health big data computation on the packaged vital sign data and feeding back a computation result to the Internet and cloud databases;
the cloud database is used for storing the packaged vital sign data and calculation results;
the intelligent terminal is used for medical staff to monitor, review and update vital sign data in real time under corresponding permission.
The beneficial effects of the invention are as follows: the system improves the working efficiency of medical staff by means of a cloud computing technology from a basic acquisition link, reduces the error probability, realizes automatic acquisition of vital sign data and uploading to a server, performs analysis and processing through a cloud computing module and stores the vital sign data in a cloud database, so that the medical staff can monitor, review and update vital sign data of a patient in real time through a corresponding authorized intelligent terminal, a large number of ward rounds and bedside tests are omitted, the medical staff can perform high-efficiency and high-accuracy test items on the patient according to the real-time monitoring data, and health state authentication can be performed according to information algorithm analysis.
On the basis of the technical scheme, the invention can be improved as follows.
Further, the communication module is a wired communication module and/or a wireless communication module.
The beneficial effects of adopting the further scheme are as follows: the traditional limited communication mode is changed, the communication range is enlarged, and the technology implementation of instant messaging can be realized without being limited by regions.
Further, the intelligent terminal is a wired communication terminal and/or a wireless communication terminal, and the wireless communication terminal is a mobile phone, a tablet computer, a notebook computer or a wireless host; the wired communication terminal is a desktop computer, a fixed server or a wired host.
The beneficial effects of adopting the further scheme are as follows: the platform non-uniformity causes that a plurality of data cannot be shared and published, the diversity of the platform causes the limitation of application data, and the scheme can realize the communication sharing data of multiple platforms through a software system.
In addition, the invention also provides a vital sign data management method based on cloud computing, which comprises the following steps:
(1) The vital sign data source module collects vital sign data and transmits the vital sign data to the information processing module;
(2) The information processing module receives vital sign data and confirms the identity of the user; classifying vital sign data under the data authority of the identity, preprocessing and packaging the classified vital sign data, and transmitting the preprocessed and packaged vital sign data to a communication module;
(3) The communication module is connected with the Internet and sends the vital sign data after pretreatment and encapsulation to the cloud computing module and the cloud database;
(4) The cloud computing module receives the packaged vital sign data, extracts data of a cloud database, performs health big data computation by using an analysis algorithm, and feeds back computation results to the Internet and the cloud database;
(5) And the user utilizes the intelligent terminal to perform corresponding data processing operation according to the system authority and finishes the storage and the calling of the information through the cloud database.
The beneficial effects of adopting the further scheme are as follows: through the combination of cloud computing capability and hardware acquisition technology, the communication method which is not limited by local area in the use process and the nursing low-labor high-work efficiency are achieved, and meanwhile, the patient is ensured not to bear excessive pain in body and spirit in the rehabilitation process.
Further, the vital sign data includes heart rate data, pulse data, blood pressure data, blood oxygen data, blood glucose data, body temperature data, respiration data, electrocardiographic data, electroencephalogram data, personal posture data, and intelligent pre-warning data.
Further, the vital sign data is classified into electrocardiographic sensing information, respiratory sensing information, blood pressure sensing information, blood sugar sensing information, blood oxygen sensing information, body temperature sensing information, bed posture position information, automatic posture adjustment information and intelligent early warning information.
The beneficial effects of adopting the further scheme are as follows: the data pre-classification is beneficial to the integral transmission of individual data, and the basic safety communication is ensured.
Furthermore, the preprocessing encapsulation format is a frame header, address information, a data type, a data length, a data block, a check code and a frame tail, wherein the frame header and the frame tail are used for confirming the data type, different frame headers and frame tails are used for representing different vital sign data, and meanwhile, the user identity can be distinguished, so that the safety communication is realized.
The beneficial effects of adopting the further scheme are as follows: the frame head and the frame tail are distinguished through the confirmed data classification, so that the data repeatability can be completely avoided, the interpretation process is complete and safe, and the basic safety communication is ensured.
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FIG. 1 is a schematic diagram of a system of the present invention;
fig. 2 is a flow chart of the method of the present invention.
Detailed Description
The principles and features of the present invention are described below with reference to the drawings, the examples are illustrated for the purpose of illustrating the invention and are not to be construed as limiting the scope of the invention.
As shown in fig. 1, the vital sign data management system based on cloud computing includes a vital sign data source module, an information processing module, a communication module, a cloud computing module, a cloud database and an intelligent terminal. The vital sign data source module is connected with the information processing module. The information processing module is connected with the communication module. And the communication module is connected with the information processing module, the cloud database and the intelligent terminal. And the cloud database is connected with the communication module. The intelligent terminal is connected with the communication module. The cloud computing module is connected with the communication module.
The vital sign data source module is used for collecting various vital sign data of a human body, for example: heart rate, pulse, blood pressure, blood oxygen, blood glucose, body temperature, respiration, electrocardio, electroencephalogram, and the like. And after the acquisition is completed, transmitting the information to an information processing module. The vital sign data source comes from a signal sensor, and the signal sensor can be a PVDF piezoelectric film belt or peripheral vital sign acquisition hardware such as a portable vital sign data acquisition device.
The information processing module is used for receiving each item of vital sign data acquired by the vital sign data source module, processing the data, and accessing and storing the processed data in the cloud database through the communication module.
The application method of the information processing module is that the information processing module receives the vital sign data source, carries out format package processing on the vital sign data source, and then carries out communication module, when the vital sign data source is received by information processing, the communication module accesses the current user ID to carry out corresponding identity confirmation, and the vital sign data source carries out data type classification under corresponding identity authority to realize wireless or wired technology transmission.
The format package is respectively a frame header, address information, a data type, a data length, a data block, a check code and a frame tail, package transmission is carried out according to the digital information, the frame header and the frame tail are used for confirming the data type, different frame headers and frame tails are used for representing different vital sign data, and meanwhile, the user identity can be distinguished, so that safe communication is realized.
The communication module is used for wireless or wired network communication access among the modules. The communication module has the characteristics of comprehensiveness, mobility, manageability, safety, expansibility and the like, and is suitable for the mobile environment required by medical treatment.
The wireless technology is divided into Wi-Fi technology, UWB technology, zigBee technology and NFC technology. Wired technology is the way in which information is conveyed using tangible media such as metallic wires, optical fibers, and the like. The method uses the most advanced wireless network communication technology at present to cover the network communication frequencies of 2G, 3G, 4G and 5G, and can communicate with each intelligent terminal in real time so as to complete the instructions of monitoring, consulting, updating and the like of real-time data.
The cloud database is used for storing basic information of a user, vital sign data, user gestures, user diagnosis instruments, user staged health states and the like in the rehabilitation process, and various data such as prescriptions of patients, basic information of vital sign sensors, various technical indexes and interface parameters, electric quantity, reset, faults, warnings, CPR, calling and the like in the running process of equipment can be consulted and managed by the intelligent terminal with corresponding authorization, so that the safety and stability of the database are ensured.
The intelligent terminal is used for information display, trend analysis and traceability management of the user by medical staff, and can realize office paperless and efficient management. The management control system under the intelligent terminal is applicable to centralized management and data acquisition of multiple users, can effectively feed back the data to other intelligent terminals through data processing, and can accurately manage patients according to different identities through authority levels. Reports show that most of the doctors in China currently take the doctor's visit 40-50 times a day, and follow-up, collaboration, subject research, department tasks and hospital services are all involved in fatigue and running every day. Thus, the present method solves the above-described problems by providing the best way to assist the physician, not just providing knowledge, but rather performing deep processing and integration of relevant knowledge with efficient work.
The management control system under the intelligent terminals is a unified software system running on each intelligent terminal.
The intelligent terminal is a wired communication terminal and a wireless communication terminal. The wireless communication terminal is a mobile phone, a tablet personal computer, a notebook computer or a wireless host. The wired communication terminal is a desktop computer, a fixed server or a wired host.
The intelligent terminals comprise personal intelligent terminals, intelligent terminals of family members of patients, nurse intelligent terminals and doctor intelligent terminals. The application method is characterized in that the intelligent terminal and the vital sign data source are in information butt joint through the communication module, and real-time monitoring, reference and update of vital sign data on the intelligent terminal are completed under the corresponding authority.
The data management system is convenient and quick in use process, can collect and upload all vital sign data of organisms by a server, has the advantages of safely, accurately and stably collecting and processing the vital sign data, is used for storing basic information of users, is used for storing relevant information such as vital sign data, user gestures, user diagnosis instruments and user staged health states in the rehabilitation treatment process, can be used for monitoring and consulting prescriptions of patients, basic information and technical indexes of vital sign sensors by doctors in real time by corresponding authorized intelligent terminals, updating the vital sign data, displaying information, analyzing trend and carrying out traceability management on the users, and can realize office paperless and efficient management; the management control system under the intelligent terminal is applicable to centralized management and data acquisition of multiple users, can be effectively fed back to other intelligent terminals through data processing, and can be used for accurately managing patients according to different identities through authority levels.
In addition, the invention also provides a vital sign data management method based on cloud computing, which comprises the following specific processes:
(1) The vital sign data source module is directly communicated with the information processing module, and the collected vital sign data is transmitted to the information processing module, wherein the vital sign data comprises heart rate data, pulse data, blood pressure data, blood oxygen data, blood sugar data, body temperature data, respiratory data, electrocardiographic data, electroencephalogram data, personal posture data and intelligent early warning data;
(2) The information processing module receives vital sign data, confirms the identity of a user, and classifies the vital sign data under the data authority of the identity after confirming the identity, wherein the data types are electrocardiographic sensing information, blood pressure sensing information, blood oxygen sensing information, body temperature sensing information, bed posture position information, automatic posture adjustment information and intelligent early warning information respectively; the information processing module performs preprocessing encapsulation after finishing information classification, and transmits the information after preprocessing encapsulation to the communication module; the preprocessing encapsulation format is a frame header, address information, a data type, a data length, a data block, a check code and a frame tail, wherein the frame header and the frame tail are used for confirming the data type, different frame headers and frame tails are used for representing different vital sign data, and meanwhile, the user identity can be distinguished, so that safe communication is realized: the frame head and the frame tail are distinguished through the confirmed data classification, so that the data repeatability can be completely avoided, the interpretation process is complete and safe, and the basic safety communication is ensured;
(3) The communication module is connected with the Internet, the preprocessed and packaged information is sent to the cloud computing module and the cloud database, the cloud computing module extracts data of the cloud database, carries out health big data calculation by using an analysis algorithm, and feeds back calculation results to the Internet and the cloud database;
(4) And the user utilizes the intelligent terminal to perform corresponding data processing operation according to the system authority and finishes the storage and the calling of the information through the cloud database.
For example, a patient suffers from diabetes, and can select the recent blood pressure data trend of the patient when extracting data, and also can extract health big data to be compared with clinical standard data so as to know the health state of the patient.
For example, a patient has hypertension, when data is extracted, the recent blood pressure data trend of the patient can be selected, the personal data can be selected to be compared with clinical standard data, and the health big data can be extracted to be compared with the clinical standard data so as to know the health state of the patient.
In the technical scheme for transmitting vital sign data, the unified calling and real-time transmission of vital sign data are realized, so that the existing network infrastructure is multiplexed to the maximum extent, and the requirements of real-time remote monitoring and part of remote medical treatment are met. When the patient needs to know the current health state, the patient can independently judge the health state only by extracting historical real-time monitoring data for comparison or comparing the current vital sign data with the health big data, and can directly observe the result according to the health big data provided by the system and the vital sign data source analysis result of the patient, so that the pre-judging health state is achieved.
According to the technical scheme for transmitting vital sign data sources, risk assessment can be carried out on clinical medical care, in modern medicine, how much academic is advocated for 'clinical data of a patient for 12 hours recently, namely patient mortality prediction', but often the data of the patient are multiple phases in a pathological change period, and a clinical instrument cannot predict a disease risk value. The unique automatic data source monitoring and automatic intensive care system in the application can provide a risk assessment value for clinical data of patients in combination with algorithm analysis, and improve the recovery probability of the patients.
As can be seen from the above, the vital sign data management method based on cloud computing can be multi-level and practical, the digital hospital is a necessary trend in the future medical industry, the informatization degree determines the effective space for efficient management of the hospital, and when the cloud computing and the database are combined to form a systematic management, the informatization degree of the hospital is not only improved, but also the system management is excellent in other aspects; for example:
1. the disease pre-judging force of the hospital is improved, and the purposes of early warning and non-early knowledge are achieved;
2. the knowledge and clinical data and achievement sharing among institutions are enhanced, and the cure rate is essentially improved;
3. the whole digital operation space of the hospital 4.0 is improved;
4. digital hospitals will be more convenient for future medical and health services. Revolutionary changes will be made from reservation, treatment, payment, etc.;
the foregoing description of the preferred embodiments of the invention is not intended to limit the invention to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and scope of the invention are intended to be included within the scope of the invention.

Claims (6)

1. The vital sign data management system based on cloud computing is characterized by comprising a vital sign data source module, an information processing module, a communication module, a cloud computing module, a cloud database and an intelligent terminal;
the information processing module, the cloud computing module, the cloud database and the intelligent terminal are all connected with the communication module, and the vital sign data source module is connected with the information processing module;
the vital sign data source module is used for acquiring vital sign data and transmitting the vital sign data to the information processing module;
the information processing module is used for receiving vital sign data, classifying, preprocessing and packaging the vital sign data, and transmitting the vital sign data after preprocessing and packaging to the communication module; the preprocessing encapsulation format is a frame head, address information, a data type, a data length, a data block, a check code and a frame tail, wherein the frame head and the frame tail are used for confirming the data type, different frame heads and frame tails are used for representing different vital sign data, and meanwhile, the user identity can be distinguished, so that safe communication is realized;
the communication module is used for being connected with the Internet and sending the encapsulated vital sign data to the cloud computing module and the cloud database through a wired and/or wireless network;
the cloud computing module is used for receiving the packaged vital sign data and extracting data of the cloud database, performing health big data computation by using an analysis algorithm, and feeding back a computation result to the Internet and the cloud database;
the cloud database is used for storing the packaged vital sign data and calculation results;
the intelligent terminal is used for medical staff to monitor, review and update vital sign data in real time under corresponding permission.
2. The vital sign data management system based on cloud computing of claim 1, wherein the communication module is a wired communication module and/or a wireless communication module.
3. The vital sign data management system based on cloud computing according to claim 1 or 2, wherein the intelligent terminal is a wired communication terminal and/or a wireless communication terminal, and the wireless communication terminal is a mobile phone, a tablet computer, a notebook computer or a wireless host; the wired communication terminal is a desktop computer, a fixed server or a wired host.
4. The vital sign data management method based on cloud computing is characterized by comprising the following steps of:
(1) The vital sign data source module collects vital sign data and transmits the vital sign data to the information processing module;
(2) The information processing module receives vital sign data and confirms the identity of the user; classifying vital sign data under the data authority of the identity, preprocessing and packaging the classified vital sign data, and transmitting the preprocessed and packaged vital sign data to a communication module; the preprocessing encapsulation format is a frame head, address information, a data type, a data length, a data block, a check code and a frame tail, wherein the frame head and the frame tail are used for confirming the data type, different frame heads and frame tails are used for representing different vital sign data, and meanwhile, the user identity can be distinguished, so that safe communication is realized;
(3) The communication module is connected with the Internet and sends the vital sign data after pretreatment and encapsulation to the cloud computing module and the cloud database;
(4) The cloud computing module receives the packaged vital sign data, extracts data of a cloud database, performs health big data computation by using an analysis algorithm, and feeds back computation results to the Internet and the cloud database;
(5) And the user utilizes the intelligent terminal to perform corresponding data processing operation according to the system authority and finishes the storage and the calling of the information through the cloud database.
5. The cloud computing-based vital sign data management method of claim 4, wherein the vital sign data comprises heart rate data, pulse data, blood pressure data, blood oxygen data, blood glucose data, body temperature data, respiration data, electrocardiographic data, electroencephalogram data, personal posture data, and intelligent pre-warning data.
6. The cloud computing-based vital sign data management method of claim 4, wherein the vital sign data is classified into electrocardiographic sensing information, respiratory sensing information, blood pressure sensing information, blood glucose sensing information, blood oxygen sensing information, and body temperature sensing information, bed posture position information, automatic posture adjustment information, and intelligent pre-warning information.
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Families Citing this family (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109662700A (en) * 2017-10-17 2019-04-23 无锡闻心电子科技有限责任公司 Wearable human life collection apparatus device, local server and its data analysis system, method
CN109411088A (en) * 2018-05-03 2019-03-01 广东健凯医疗有限公司 A kind of user health big data shared platform
CN108376561A (en) * 2018-05-17 2018-08-07 北京维康恒科技有限公司 The method and system of rehabilitation suggestion are provided based on real-time sign data
CN109119138A (en) * 2018-09-19 2019-01-01 广州视源电子科技股份有限公司 Sign data acquisition system
CN110537905A (en) * 2019-05-24 2019-12-06 哈尔滨理工大学 Portable human health monitoring system
CN115547499B (en) * 2022-11-03 2023-03-10 南方医科大学南方医院 Health management system based on interaction of Internet and chronic patient physical sign monitoring terminal
CN116403736B (en) * 2023-06-07 2023-09-22 云天智能信息(深圳)有限公司 Remote medical monitoring system based on Internet of things technology

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103961069A (en) * 2014-05-07 2014-08-06 东南大学 Intelligent health monitoring system based on cloud services
CN204293143U (en) * 2014-12-01 2015-04-29 湖南泉涌信息科技有限公司 The long-range multi-parameter monitoring system of a kind of medical Bidirectional intelligent based on cloud computing
CN105286789A (en) * 2015-09-22 2016-02-03 张春园 Vital sign data acquisition and online monitoring system for medical use

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103961069A (en) * 2014-05-07 2014-08-06 东南大学 Intelligent health monitoring system based on cloud services
CN204293143U (en) * 2014-12-01 2015-04-29 湖南泉涌信息科技有限公司 The long-range multi-parameter monitoring system of a kind of medical Bidirectional intelligent based on cloud computing
CN105286789A (en) * 2015-09-22 2016-02-03 张春园 Vital sign data acquisition and online monitoring system for medical use

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