WO2016169458A1 - 一种基于可穿戴及外置设备整合的健康管理系统及方法 - Google Patents
一种基于可穿戴及外置设备整合的健康管理系统及方法 Download PDFInfo
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- WO2016169458A1 WO2016169458A1 PCT/CN2016/079598 CN2016079598W WO2016169458A1 WO 2016169458 A1 WO2016169458 A1 WO 2016169458A1 CN 2016079598 W CN2016079598 W CN 2016079598W WO 2016169458 A1 WO2016169458 A1 WO 2016169458A1
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- 230000036541 health Effects 0.000 title claims abstract description 236
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L65/00—Network arrangements, protocols or services for supporting real-time applications in data packet communication
- H04L65/40—Support for services or applications
Definitions
- the present invention relates to a cloud management system, and more particularly to a life and health management system and method based on information integration of wearable and external devices.
- the care recipients need to be taken care of, some even lose their self-care ability (such as paralyzed patients), if the caregiver does not care for the care recipient, it will affect the health of the care recipient, but the end will endanger life.
- the guardian cannot have a good understanding of the daily physical condition of the care recipient, and cannot do a careless treatment of the condition (such as cardiovascular and cerebrovascular diseases) that may occur in the care recipient, which seriously endangers the life and health of the care recipient.
- An object of the present invention is to provide a health management system and method based on integration of wearable and external devices, which aims to solve the problem that the existing special population care does not have an effective monitoring record, and the guardian cannot know the care recipient.
- the daily physical condition causes problems that endanger the health and even life of the person being cared for.
- a health management system based on integration of wearable and external devices wherein:
- a wearable health monitoring device detects body signs of a care recipient and combines the detected body signs with electricity Sub-tags are transmitted to the regional health and life information management subsystem;
- the external information management subsystem of the living information reads the electronic tag on the wearable health monitoring device, and transmits the electronic tag together with the recorded daily life behavior event to the regional health and life information management subsystem;
- the regional health and life information management subsystem uploads collected body sign information and life information information to the big data health and living information collection and research and development subsystem, and collects and develops according to big data health and life information.
- the system's instructions perform the corresponding actions, and receive the standard model of the Big Data Health and Living Information Collection and Development Subsystem, analyze the collected information and interact with the Big Data Health and Living Information Collection and Development Subsystem;
- the Big Data Health and Living Information Collection and Development Sub-system analyzes and summarizes the data based on the data uploaded by the regional health and life information management subsystem, and obtains standardized models and instructions to feed the standardized models to regional health and
- the life information management subsystem controls the regional health and life information management subsystem to perform corresponding actions.
- the health management system based on the integration of the wearable and the external device, wherein the wearable health monitoring device comprises a wearable device body and a circuit board disposed in the wearable device body;
- the wearable device body is provided with:
- a body sign collecting sensor collecting various body sign information of the care recipient
- the circuit board is provided with:
- a body sign collection module that receives various body sign information of the care recipient collected by the body sign collection sensor
- an electronic tag module having a unique electronic tag identity
- a periodic push module the collected body information of the care recipient and the electronic tag identity are regularly transmitted to the regional health and life information management subsystem;
- the emergency push module if the central processor determines that the collected data is abnormal, then transmits the data to the regional health and life information management subsystem;
- a wireless communication module that wirelessly communicates with a regional health and life information management subsystem
- the central processor analyzes and judges various body sign information collected, and controls the operation of the entire wearable health monitoring device
- a power module that provides power to the entire wearable health monitoring device.
- the health management system based on the integration of the wearable and the external device, wherein the living information external management subsystem comprises a reader body and a circuit board disposed in the reader body;
- the reader body is provided with:
- the circuit board is provided with:
- an electronic tag reading module that reads a unique electronic tag identity on the wearable health monitoring device
- an external data collection module that collects daily life behavior events of the care recipient manually or automatically entered by the entry device
- the communication module transmits the information to the regional health and living information management subsystem through wireless communication;
- the data pushing module transmits the frequent living behavior event collected by the external data collecting module together with the electronic label identity to the regional health and living information management subsystem through the communication module.
- the health management system based on the integration of wearable and external devices, wherein the regional health and life information management subsystem comprises:
- a regional data collection module configured to collect information about the wearable health monitoring device and the external information management subsystem of the living information
- the regional data analysis module receives the standard model of the big data health and living information collection and research and development subsystem, and performs analysis according to the data collected by the regional data collection module, and performs with the big data health and life information collection and research and development subsystem. Analyze interaction;
- the regional action module performs corresponding actions according to the crisis level according to the instructions issued by the big data health and life information collection and research and development subsystem, and feeds back to the big data health and life information collection and research and development subsystem;
- a regional reporting module that periodically summarizes the collected information
- the regional periodic uploading module periodically uploads the collected information to the big data health and living information collection and research and development subsystem
- the regional data interface module sends the required data to the big data health and living information collection and development subsystem according to the requirements of the Big Data Health and Living Information Collection and Development Subsystem;
- the health management system based on the integration of wearable and external devices, wherein the big data health and life information collection and development subsystem comprises:
- a big data collection module receiving data uploaded by the regional health and life information management subsystem
- an action module that controls the regional health and life information management subsystem to act or replace the regional health and life information management subsystem to perform corresponding actions according to the crisis level;
- a reporting module that periodically summarizes the collected information
- the analysis management module establishes a standard model according to the collected information, compares the collected information with the standard model, obtains an instruction, pushes the standard model to the regional health and life information management subsystem, and according to the regionality High-level secondary analysis of data transmitted by the Health and Living Information Management Subsystem;
- the data interface module shares data with other data analysis research institutions.
- the health management system based on the integration of the wearable device and the external device, wherein the wearable device body is provided with a three-party burst interface, and a new program to be modified is input; and the circuit board is provided with programmable
- the chip according to the new program that needs to be modified input by the three-party burst interface, modifies the program in the system.
- the health management system based on the integration of the wearable and the external device, wherein the circuit board is provided with a memory, and the collected various body sign information is stored.
- the health management system based on the integration of the wearable and the external device, wherein the wearable device body is provided with an alarm device, and an alarm reminder is issued according to the judgment result obtained by the central processor.
- the health management system based on the integration of the wearable and the external device, wherein the reader body is provided with: a three-party burst interface, and inputting a new program that needs to be modified;
- the programmable circuit chip is disposed on the circuit board, and the program in the system is modified according to a new program that needs to be modified according to the three-party burst interface.
- Step A00 The wearable health monitoring device detects the physical signs of the care recipient, and transmits the detected physical signs together with the electronic tag identity to the regional health and life information management subsystem;
- Step B00 The life information external management subsystem reads the identity of the electronic tag on the wearable health monitoring device, and transmits the identity of the electronic tag together with the recorded daily life behavior event to the regional health and living resources. Management subsystem
- Step C00 The regional health and life information management subsystem uploads the collected body sign information and life information information to the big data health and living information collection and research and development subsystem, big data health and life information collection and research and development.
- the system analyzes and judges according to the uploaded data, and obtains standardized models and instructions, feeds the standardized model to the regional health and life information management subsystem, and controls the regional health and life information management subsystem to perform corresponding actions;
- Step D00 The regional health and life information management subsystem analyzes the collected information and interacts with the Big Data Health and Living Information Collection and Development Subsystem.
- the present invention provides a health management system and method based on integration of wearable and external devices, by wearing or wearing a health monitoring device by a care recipient, together with the detected body signs
- the electronic label is transmitted to the regional health and life information management subsystem; the life information external management subsystem reads the electronic label on the wearable health monitoring device, and transmits the electronic label together with the recorded daily life behavior events to the regional health and life information.
- Management Subsystem; The Regional Health and Living Information Management Subsystem uploads collected body and vital information and life information to the Big Data Health and Living Information Collection and Development Subsystem, and collects and develops data according to Big Data Health and Living Information.
- the system's instructions perform the corresponding actions (such as notifying the guardian, doctor, caregiver, alarm, etc.), and receive the standard model of the big data health and life information collection and development subsystem, and analyze and collect big data based on the collected information.
- Health and Living Information Collection and Development Sub-system The Big Data Health and Living Information Collection and Development Subsystem analyzes and summarizes the data based on the data uploaded by the Regional Health and Living Information Management Subsystem, and draws standardized models and instructions to feed back standardized models to regional health and life.
- the information management subsystem which controls the regional health and life information management subsystem to perform corresponding actions and share data with data research organizations around the world; among them, the regional health and life information management subsystem and big data health and
- the life information collection and development subsystem can be implemented by the cloud system; the entire health management system has a relatively sound monitoring process to prevent the caregiver from influencing the health or accidents due to negligence; this health management system is suitable for large public nursing places.
- Such as nursing homes, nursing homes, hospitals, kindergartens, schools, etc. have a wide range of applications and universal applicability.
- FIG. 1 is a schematic diagram of a connection of a health management system based on integration of wearable and external devices in the present invention.
- FIG. 2 is a schematic diagram of the connection of the wearable health monitoring device of the present invention.
- FIG. 3 is a schematic diagram of the connection of the external information management subsystem of the living information in the present invention.
- FIG. 4 is a schematic diagram showing the connection between the regional health and life information management subsystem and the big data health and living information collection and development subsystem in the present invention.
- FIG. 5 is a flow chart showing the steps of a management method of a health management system based on wearable and external device integration in the present invention.
- the health management system based on wearable and external device integration includes a wearable health monitoring device, a living information external management subsystem, a regional health and life information management subsystem, and big data.
- Health and Living Information Collection and Development Subsystem the wearable health monitoring device is wirelessly connected to the regional health and life information management subsystem, and the external information management subsystem and the regional health and life information management subsystem are wirelessly connected.
- the regional health and life information management subsystem is connected to the big data health and life information collection and development subsystem wireless communication connection, the wearable health monitoring equipment and the living information external management subsystem radio communication connection.
- the wearable health monitoring device detects the body signs of the care recipient, transmits the detected body signs together with the electronic tags to the regional health and life information management subsystem; the life information external management subsystem reads the electronics on the wearable health monitoring device Label, the electronic label and the recorded daily life behavior events are transmitted to the regional health and life information management subsystem; the regional health and life information management subsystem uploads the collected body sign information and life information information to Big Data Health and The life information collection and development subsystem, and the corresponding actions according to the instructions of the Big Data Health and Living Information Collection and Development Subsystem, and the standard model of the Big Data Health and Living Information Collection and Development Subsystem, based on the collected information.
- the Big Data Health and Living Information Collection and Development Subsystem analyzes and judges the data based on the data uploaded by the Regional Health and Living Information Management Subsystem. Standardized models and instructions are obtained, the standardized model is fed back to the regional health and life information management subsystem, and the regional health and life information management subsystem is controlled to perform corresponding actions and share data with data research institutions around the world. .
- the wearable health monitoring device can be implemented by using various monitoring structures according to actual needs, such as monitoring a wristband, monitoring clothes, monitoring armbands, monitoring glasses, monitoring foot straps, and monitoring. Belts, monitor stickers, and more.
- the programmable health monitoring wearable device is described using the structural form of the monitoring wristband.
- the wearable health monitoring device includes a wearable device body and a circuit board disposed in the wearable device body
- the wearable device body is provided with:
- a body sign collecting sensor collecting various body sign information of the person being cared for
- the alarm device sends an alarm reminder.
- the circuit board is provided with:
- a body sign collection module that receives various body sign information of the care recipient collected by the body sign collection sensor
- an electronic tag module having a unique electronic tag identity
- a periodic push module the collected body information of the care recipient and the electronic tag identity are regularly transmitted to the regional health and life information management subsystem;
- the emergency push module if the central processor determines that the collected data is abnormal, then transmits the information to the regional health and life information management subsystem;
- the central processing unit analyzes and collects various body sign information collected, and controls the operation of the entire wearable health monitoring device
- a power module that provides power to the entire wearable health monitoring device
- a wireless communication module in wireless communication with a regional health and life information management subsystem
- the memory stores the collected body sign information and the judgment result in the setting time.
- the electronic tag module stores the unique electronic tag identity of each wearable health monitoring device, and transmits it by wireless transmission with various body signs and the results obtained by each sensing module.
- the wireless communication module transmits the results obtained by processing various body signs and each sensing module through wifi, 4G or Bluetooth.
- Each module on the circuit board serves as a basic module, and the modified program is input into the programmable chip through the three-party burst interface to perform program modification, to modify the basic module or re-issue some new vitality sensing modules.
- the body sign collection sensor is responsible for collecting various body signs (including body temperature, pulse, power, blood pressure, heart rate, etc.) of the human body, and then feeding various body signs to the body sign collection module, the central processor is different The body sign information is processed, and the processed result is displayed on the display or uploaded to other storage systems.
- the central processor compares the monitored body temperature information with a preset body temperature, and if the monitored body temperature information is greater than or less than the preset body temperature, an alarm is issued, if the monitored body temperature information is within a preset body temperature range , the system does not operate; the central processor processes the monitored pulse information, and if the pulse data presents a predetermined rule, an alarm is issued; the central processor displays the monitored dynamic information (eg, how many steps are taken within one minute, whether the care recipient has Falling, fainting, monitoring sleep sputum movements to observe sleep quality, etc., all belong to the motivational information.) Processing, by monitoring the dynamic information to determine whether the body of the care recipient is abnormal (such as falling, fainting), if abnormal Call the police.
- the alarm device may employ an audible alert alert device or a light flash alert device.
- the living information external management subsystem can be implemented by using various reader structures as needed.
- the living information external management subsystem includes a reader body and a circuit board disposed in the reader body
- the reader body is provided with:
- the circuit board is provided with: [0088] a central processing unit that controls the entire life information external management subsystem to operate;
- an electronic tag reading module that reads a unique electronic tag identity on the wearable health monitoring device
- an external data collection module that collects daily life behavior events of the care recipient manually or automatically entered by the entry device
- the life behavior ID generation module makes a definition number according to the daily life behavior event collected by the external data collection module (eg, the medication definition number is 100, the meal definition number is 101, the drinking water definition number For 102, etc., to facilitate the development of regional health and life information management subsystems and unified data collection);
- a communication module which transmits the life information collected by the external information management subsystem of the living information to the regional health and life information management subsystem by means of wireless communication;
- the data pushing module transmits the frequent living behavior event collected by the external data collecting module together with the electronic label identity to the regional health and living information management subsystem through the communication module;
- the programmable chip modifies the program in the system according to a new program that needs to be modified according to the three-party burst interface.
- the regional health and life information management subsystem manages, reports, notifies, shares information to relatives or medical staff, care or medical institution management, periodic reports, and KPIs.
- the regional health and life information management subsystem includes:
- a regional data collection module configured to collect information of the wearable health monitoring device and the external information management subsystem of the living information
- the regional data analysis module receives the standard model of the big data health and life information collection and research and development subsystem, and analyzes the data collected according to the regional data collection module, and performs the big data health and life information collection and research and development subsystem. Analyze interaction;
- the regional action module according to the instructions obtained by the big data health and life information collection and research and development subsystem, performs corresponding actions according to the crisis level, and feeds back to the big data health and life information collection and research and development subsystem (eg, fever, Notify relatives, hospital doctors, nurses; if the situation is critical, notify the dean, the police);
- the big data health and life information collection and research and development subsystem eg, fever, Notify relatives, hospital doctors, nurses; if the situation is critical, notify the dean, the police
- a regional reporting module that periodically summarizes the collected information
- the regional periodic uploading module periodically uploads the collected information to the big data health and living information collection and research and development subsystem (for example, collecting and developing big data health and living information at a frequency of 20 times per second)
- the system uploads pulse sign information
- the regional data interface module sends the required data to the big data health and living information collection and development subsystem according to the requirements of the Big Data Health and Living Information Collection and Development Subsystem (eg, Big Data Health and Living Information Collection) And the research and development subsystem needs to do a topic, what is the relationship between eating and heartbeat, this regional data interface module will send the information of the meal and the corresponding heartbeat signs to the big data health and life information collection and development subsystem);
- the Big Data Health and Living Information Collection and Development Subsystem eg, Big Data Health and Living Information Collection
- a regional policy enforcement module that receives and enforces policies of the Big Data Health and Living Information Collection and Development Subsystem (eg, the Big Data Health and Living Information Collection and Development Subsystem periodically uploads the original required area to the module 20 times per second) The frequency of uploading the pulse sign information is changed to require the regional periodic upload module to upload the pulse sign information at a frequency of 10 times per second).
- the big data health and living information collection and development subsystem includes: [0104] a big data collection module, which receives data uploaded by a regional health and life information management subsystem;
- the action module controls the regional health and life information management subsystem to act or replace the regional health and life information management subsystem to perform corresponding actions according to the crisis level (eg, receiving the regional health and life information management subsystem uploading
- the data shows that a care recipient has not given the medicine, the action module sends an instruction to the regional action module, and the regional action module performs corresponding actions according to the command according to the crisis level, such as notifying the nurse, the doctor, etc.);
- the reporting module periodically summarizes the collected information
- the analysis management module establishes a standard model according to the collected information, compares the collected information with the standard model, obtains an instruction, pushes the standard model to the regional health and life information management subsystem, and according to the regionality High-level secondary analysis of data transmitted by the Health and Living Information Management Subsystem;
- a data interface module that shares data with other data analysis research institutions.
- a new elderly person is admitted to the nursing home, the nurse wears wearable health monitoring equipment for the elderly, and the electronic label module on the wearable health monitoring device stores the unique electronic label identity of each wearable health monitoring device, body sign collection
- the sensor collects various body signs of the elderly and feeds them back to the body sign collection module.
- the central processor controls the regular body push module to collect the various body signs of the elderly.
- the information together with the identity of the electronic tag is periodically transmitted to the regional data collection module through the wireless communication module.
- the central processor analyzes and judges according to various body sign information collected.
- the central processor analyzes and judges the abnormality of the body signs of the elderly (such as fever) , the blood pressure is too high, etc.), then the emergency push module is controlled to transmit the physical signs of the elderly to the regional data collection module through the wireless communication module, and control the alarm device to make an alarm prompt.
- the emergency push module is controlled to transmit the physical signs of the elderly to the regional data collection module through the wireless communication module, and control the alarm device to make an alarm prompt.
- the living information external management subsystem records the daily life behavior of the elderly, and the nurse holds the reader body
- the life behavior ID generation module defines the medication behavior number 100, the data.
- the push module transmits the medication behavior number 100 together with the electronic label identity to the regional data collection module through the communication module; if the nurse does not give the elderly medicine, the life behavior ID generation module automatically generates the no behavior definition number 000, and the data push module will The no-behavior definition number 000 along with the electronic tag identity is transmitted to the zone data collection module via the communication module.
- the regional periodic uploading module periodically uploads the physical signs and daily life behavior information collected by the regional data collecting module to the big data collecting module, and the analysis management module establishes the information uploaded according to the collected periodic uploading modules of the plurality of regions.
- the standard model compares the collected information of the elderly with the standard model, obtains instructions, pushes the standard model to the regional data analysis module, and performs high-level secondary analysis based on the data transmitted by the regional health and life information management subsystem.
- the action module controls the regional action module to perform the corresponding action according to the crisis level according to the instruction obtained by the analysis management module (for example, the wearable health monitoring device monitors the temperature of the elderly, uploads the information to the regional data collection module, and the regional periodic upload module takes the elderly body temperature information.
- the analysis management module compares the body temperature information with the standard model to determine that the elderly has a fever, and the action module notifies the guardian according to the fever information control area action module, the resident doctor, the nurse, and the regional action model.
- the RAP module fails when not normal operation inch, the module will act in place of the operation region action module performs a corresponding operation.
- the regional data analysis module receives the standard model provided by the analysis management module, and performs analysis according to the data collected by the regional data collection module, and performs analysis and interaction with the analysis management module; the regional reporting module periodically summarizes the collected information;
- the action module controls the regional data interface module to send the required data to the big data collection module for analysis and research according to the research needs; the peer action module puts new information as needed.
- the policy instructions are sent to the regional policy execution module for execution; the reporting module periodically summarizes the information collected by the big data collection module; the data interface module shares data with other data analysis research institutions.
- a health management method for a health management system based on wearable and external device integration as described above specifically includes the following steps:
- Step A00 The wearable health monitoring device detects the physical signs of the care recipient, and transmits the detected physical signs together with the electronic tag identity to the regional health and life information management subsystem;
- Step B00 The life information external management subsystem reads the electronic tag identity on the wearable health monitoring device, and transmits the electronic tag identity along with the entered daily life behavior event to the regional health and life information management subsystem;
- Step C00 The regional health and life information management subsystem uploads the collected body sign information and life information information to the big data health and living information collection and research and development subsystem, big data health and life information collection and research and development.
- the system analyzes and judges according to the uploaded data, and obtains standardized models and instructions, feeds the standardized model to the regional health and life information management subsystem, and controls the regional health and life information management subsystem to perform corresponding actions;
- Step D00 The regional health and life information management subsystem analyzes the collected information and interacts with the Big Data Health and Living Information Collection and Development Subsystem.
- the regional health and life information management subsystem and the big data health and life information collection and development subsystem can be implemented by the cloud system; the entire health management system based on the integration of wearable and external devices has a relatively sound Monitor the process to prevent the caregiver from affecting health or having an intention due to negligence; this health management system is suitable for large public care places, such as nursing homes, nursing homes, hospitals, kindergartens, schools, etc. It has universal applicability.
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Abstract
一种基于可穿戴及外置设备整合的健康管理系统及方法,健康监测设备将被护理人体征附上电子标签上传到区域性子系统,生活资讯外部管理子系统读取健康监测设备的电子标签连同生活资讯上传到区域性子系统,区域性子系统把信息上传至大数据子系统,大数据子系统根据收集到的体征信息和生活资讯信息分析判断并控制区域性子系统是否采取相应行动;其中区域性子系统和大数据子系统可采用云端系统实现;通过一个比较健全的监控过程,避免被护理人因疏忽照顾而影响健康或出现意外;适用于大型公共护理场所,如老人院,护理院,医院,幼儿园,学校等,具有普遍适用性。
Description
说明书 发明名称:一种基于可穿戴及外置设备整合的健康管理系统及方法 技术领域
[0001] 本发明涉及一种云端管理系统, 尤其涉及的是一种基于可穿戴及外置设备资讯 整合的生活及健康管理系统及方法。
背景技术
[0002] 随着现今社会的各种工作压力和工作竞争的增大, 现在的人很少有吋间去照顾 家里的特殊人群 (例如, 老人, 病人) , 更多的是请护理人员到家里或者送去 老人院或护理院照顾。 目前的护理人员素质参差不齐, 对被护理人是否照顾周 到 (如是否按吋用餐, 饮水, 吃药, 等) 没有一个比较好的记录监控; 而老人 院或护理院虽然有专业的护理人员和驻院医生, 但是由于护理人员人数有限, 有吋护理工作会出现遗漏 (例如, 忘记给某位被护理人吃药) 。 因为被护理人 都是需要被照顾的, 有些甚至是失去自理能力的 (如瘫痪患者) , 如果护理人 员没有按吋护理被护理人, 轻则影响被护理人的身体健康, 重则则会危及生命 。 而且, 监护人也无法对被护理人的日常身体状态有一个及吋了解, 无法对被 护理人可能出现的状况 (如心脑血管疾病) 做一个及吋处理, 严重危害被护理 人的生命健康。
[0003] 因此, 现有技术还有待于改进和发展。
技术问题
问题的解决方案
技术解决方案
[0004] 本发明的目的在于提供一种基于可穿戴及外置设备整合的健康管理系统及方法 , 旨在解决现有的特殊人群护理没有有效的监控记录, 监护人无法及吋得知被 护理人的日常身体状态, 导致危害被护理人健康甚至生命的问题。
[0005] 本发明的技术方案如下:
[0006] 一种基于可穿戴及外置设备整合的健康管理系统, 其中, 包括:
[0007] 可穿戴健康监测设备, 检测被护理人的身体体征, 把检测到的身体体征连同电
子标签传送至区域性健康及生活资讯管理子系统;
[0008] 生活资讯外部管理子系统, 读取可穿戴健康监测设备上的电子标签, 将电子标 签连同录入的日常生活行为事件传输至区域性健康及生活资讯管理子系统;
[0009] 区域性健康及生活资讯管理子系统, 把收集到的身体体征信息和生活资讯信息 上传至大数据健康及生活资讯收集及研发子系统, 并根据大数据健康及生活资 讯收集及研发子系统的指令执行相应动作, 同吋接收大数据健康及生活资讯收 集及研发子系统的标准模型, 根据收集到的信息做分析并与大数据健康及生活 资讯收集及研发子系统互动;
[0010] 大数据健康及生活资讯收集及研发子系统, 根据区域性健康及生活资讯管理子 系统上传的数据进行分析归纳研究判断, 得出标准化模型和指令, 把标准化模 型反馈至区域性健康及生活资讯管理子系统, 同吋控制区域性健康及生活资讯 管理子系统执行相应动作。
[0011] 所述的基于可穿戴及外置设备整合的健康管理系统, 其中, 所述可穿戴健康监 测设备包括穿戴设备本体和设置在穿戴设备本体内的电路板;
[0012] 所述穿戴设备本体上设置有:
[0013] 身体体征收集传感器, 收集被护理人的各种身体体征信息;
[0014] 所述电路板上设置有:
[0015] 身体体征收集模块, 接收由身体体征收集传感器收集到的被护理人的各种身体 体征信息;
[0016] 电子标签模块, 内置唯一电子标签身份;
[0017] 定期推送模块, 将收集到的被护理人的各种身体体征信息连同电子标签身份定 期传送至区域性健康及生活资讯管理子系统;
[0018] 紧急推送模块, 若中央处理器判断收集到的数据出现异常, 则即吋传送至区域 性健康及生活资讯管理子系统;
[0019] 无线通讯模块, 与区域性健康及生活资讯管理子系统进行无线通信;
[0020] 中央处理器, 把收集到的各种身体体征信息做分析判断, 控制整个可穿戴健康 监测设备运行;
[0021] 电源模块, 为整个可穿戴健康监测设备提供电源。
[0022] 所述的基于可穿戴及外置设备整合的健康管理系统, 其中, 所述生活资讯外部 管理子系统包括阅读器本体和设置在阅读器本体内的电路板;
[0023] 所述阅读器本体上设置有:
[0024] 录入装置, 手动或自动录入被护理人的日常生活行为事件;
[0025] 所述电路板上设置有:
[0026] 中央处理器, 控制整个生活资讯外部管理子系统运行;
[0027] 电子标签阅读模块, 读取可穿戴健康监测设备上的唯一电子标签身份;
[0028] 外部数据收集模块, 收集录入装置手动或自动录入的被护理人的日常生活行为 事件;
[0029] 通讯模块, 把信息通过无线通讯的方式传输至区域性健康及生活资讯管理子系 统;
[0030] 资料推送模块, 把由外部数据收集模块收集到的的常生活行为事件连同电子标 签身份通过通讯模块传输至区域性健康及生活资讯管理子系统。
[0031] 所述的基于可穿戴及外置设备整合的健康管理系统, 其中, 所述区域性健康及 生活资讯管理子系统包括:
[0032] 区域数据收集模块, 负责收集可穿戴健康监测设备和生活资讯外部管理子系统 的信息;
[0033] 区域资料分析模块, 接收大数据健康及生活资讯收集及研发子系统的标准模型 , 并根据区域数据收集模块收集到的数据做分析, 与大数据健康及生活资讯收 集及研发子系统做分析互动;
[0034] 区域行动模块, 根据大数据健康及生活资讯收集及研发子系统发出的指令按危 机等级作出相应的动作, 并反馈至大数据健康及生活资讯收集及研发子系统;
[0035] 区域报告模块, 定期把收集到的信息进行汇总整理;
[0036] 区域定期上传模块, 把收集到的信息定期上传至大数据健康及生活资讯收集及 研发子系统;
[0037] 区域数据接口模块, 根据大数据健康及生活资讯收集及研发子系统的指令要求 把需要的数据发送至大数据健康及生活资讯收集及研发子系统;
[0038] 区域政策执行模块, 接收大数据健康及生活资讯收集及研发子系统的政策并执
行。
[0039] 所述的基于可穿戴及外置设备整合的健康管理系统, 其中, 所述大数据健康及 生活资讯收集及研发子系统包括:
[0040] 大数据收集模块, 接收区域性健康及生活资讯管理子系统上传的数据;
[0041] 行动模块, 控制区域性健康及生活资讯管理子系统动作或代替区域性健康及生 活资讯管理子系统按危机等级作出相应的动作;
[0042] 报告模块, 定期把收集到的信息进行汇总整理;
[0043] 分析管理模块, 根据收集到的信息建立标准模型, 把收集到的信息与标准模型 做比较判断, 得出指令, 推送标准模型至区域性健康及生活资讯管理子系统, 并根据区域性健康及生活资讯管理子系统传输的资料做高层次二次分析;
[0044] 数据接口模块, 与其他数据分析研究机构共享资料。
[0045] 所述的基于可穿戴及外置设备整合的健康管理系统, 其中, 所述穿戴设备本体 上设置有三方幵发接口, 输入需要修改的新程序; 所述电路板上设置有可编程 芯片, 根据三方幵发接口输入的需要修改的新程序对系统内的程序进行修改。
[0046] 所述的基于可穿戴及外置设备整合的健康管理系统, 其中, 所述电路板上设置 有存储器, 对收集到的各种身体体征信息进行存储。
[0047] 所述的基于可穿戴及外置设备整合的健康管理系统, 其中, 所述穿戴设备本体 上设置有警报装置, 根据中央处理器得出的判断结果发出报警提醒。
[0048] 所述的基于可穿戴及外置设备整合的健康管理系统, 其中, 所述阅读器本体上 设置有: 三方幵发接口, 输入需要修改的新程序;
[0049] 所述电路板上设置有可编程芯片, 根据三方幵发接口输入的需要修改的新程序 对系统内的程序进行修改。
[0050] 一种如上述任意一项所述的基于可穿戴及外置设备整合的健康管理系统的管理 方法, 其中, 具体包括以下步骤:
[0051] 步骤 A00: 可穿戴健康监测设备检测被护理人的身体体征, 把检测到的身体体 征连同电子标签身份传送至区域性健康及生活资讯管理子系统;
[0052] 步骤 B00: 生活资讯外部管理子系统读取可穿戴健康监测设备上的电子标签身 份, 将电子标签身份连同录入的日常生活行为事件传输至区域性健康及生活资
讯管理子系统;
[0053] 步骤 C00: 区域性健康及生活资讯管理子系统把收集到的身体体征信息和生活 资讯信息上传至大数据健康及生活资讯收集及研发子系统, 大数据健康及生活 资讯收集及研发子系统根据上传的数据进行分析归纳研究判断, 得出标准化模 型和指令, 把标准化模型反馈至区域性健康及生活资讯管理子系统, 同吋控制 区域性健康及生活资讯管理子系统执行相应动作;
[0054] 步骤 D00: 区域性健康及生活资讯管理子系统根据收集到的信息做分析并与大 数据健康及生活资讯收集及研发子系统互动。
[0055] 本发明的有益效果: 本发明通过提供一种基于可穿戴及外置设备整合的健康管 理系统及方法, 通过被护理人戴上或穿上健康监测设备, 把检测到的身体体征 连同电子标签传送至区域性健康及生活资讯管理子系统; 生活资讯外部管理子 系统读取可穿戴健康监测设备上的电子标签, 将电子标签连同录入的日常生活 行为事件传输至区域性健康及生活资讯管理子系统; 区域性健康及生活资讯管 理子系统把收集到的身体体征信息和生活资讯信息上传至大数据健康及生活资 讯收集及研发子系统, 并根据大数据健康及生活资讯收集及研发子系统的指令 执行相应动作 (如通知监护人, 医生, 护理人, 报警, 等) , 同吋接收大数据 健康及生活资讯收集及研发子系统的标准模型, 根据收集到的信息做分析并与 大数据健康及生活资讯收集及研发子系统互动; 大数据健康及生活资讯收集及 研发子系统根据区域性健康及生活资讯管理子系统上传的数据进行分析归纳研 究判断, 得出标准化模型和指令, 把标准化模型反馈至区域性健康及生活资讯 管理子系统, 同吋控制区域性健康及生活资讯管理子系统执行相应动作, 并与 世界范围内的数据研究机构进行资料共享; 其中, 区域性健康及生活资讯管理 子系统和大数据健康及生活资讯收集及研发子系统可以采用云端系统实现; 整 个健康管理系统有一个比较健全的监控过程, 避免被护理人因疏忽照顾而影响 健康或出现意外; 本健康管理系统适用于大型公共护理场所, 如老人院, 护理 院, 医院, 幼儿园, 学校, 等等, 适用范围广, 具有普遍适用性。
发明的有益效果
对附图的简要说明
附图说明
[0056] 图 1是本发明中基于可穿戴及外置设备整合的健康管理系统的连接示意图。
[0057] 图 2是本发明中可穿戴健康监测设备的连接示意图。
[0058] 图 3是本发明中生活资讯外部管理子系统的连接示意图。
[0059] 图 4是本发明中区域性健康及生活资讯管理子系统和大数据健康及生活资讯收 集及研发子系统的连接示意图。
[0060] 图 5是本发明中基于可穿戴及外置设备整合的健康管理系统的管理方法步骤流 程图。
本发明的实施方式
[0061] 为使本发明的目的、 技术方案及优点更加清楚、 明确, 以下参照附图并举实施 例对本发明进一步详细说明。
[0062] 如图 1-4所示, 本基于可穿戴及外置设备整合的健康管理系统包括可穿戴健康 监测设备、 生活资讯外部管理子系统、 区域性健康及生活资讯管理子系统和大 数据健康及生活资讯收集及研发子系统, 所述可穿戴健康监测设备与区域性健 康及生活资讯管理子系统无线通信连接, 生活资讯外部管理子系统与区域性健 康及生活资讯管理子系统无线通信连接, 区域性健康及生活资讯管理子系统与 大数据健康及生活资讯收集及研发子系统无线通信连接, 可穿戴健康监测设备 和生活资讯外部管理子系统无线电通信连接。 可穿戴健康监测设备检测被护理 人的身体体征, 把检测到的身体体征连同电子标签传送至区域性健康及生活资 讯管理子系统; 生活资讯外部管理子系统读取可穿戴健康监测设备上的电子标 签, 将电子标签连同录入的日常生活行为事件传输至区域性健康及生活资讯管 理子系统; 区域性健康及生活资讯管理子系统把收集到的身体体征信息和生活 资讯信息上传至大数据健康及生活资讯收集及研发子系统, 并根据大数据健康 及生活资讯收集及研发子系统的指令执行相应动作, 同吋接收大数据健康及生 活资讯收集及研发子系统的标准模型, 根据收集到的信息做分析并与大数据健 康及生活资讯收集及研发子系统互动; 大数据健康及生活资讯收集及研发子系 统根据区域性健康及生活资讯管理子系统上传的数据进行分析归纳研究判断,
得出标准化模型和指令, 把标准化模型反馈至区域性健康及生活资讯管理子系 统, 同吋控制区域性健康及生活资讯管理子系统执行相应动作, 并与世界范围 内的数据研究机构进行资料共享。
[0063] 如图 2所示, 具体地, 所述可穿戴健康监测设备可以根据实际需要采用各种监 测结构实现, 如监测手环, 监测衣服, 监测臂带, 监测眼镜, 监测脚带, 监测 腰带, 监测贴纸, 等等。 本实施例中, 采用监测手环的结构形式对可编程的健 康监测穿戴设备加以说明。
[0064] 所述可穿戴健康监测设备包括穿戴设备本体和设置在穿戴设备本体内的电路板
[0065] 所述穿戴设备本体上设置有:
[0066] 身体体征收集传感器, 收集被护理人的各种身体体征信息;
[0067] 三方幵发接口, 输入需要修改的新程序;
[0068] 警报装置, 发出报警提醒。
[0069] 所述电路板上设置有:
[0070] 身体体征收集模块, 接收由身体体征收集传感器收集到的被护理人的各种身体 体征信息;
[0071] 电子标签模块, 内置唯一电子标签身份;
[0072] 定期推送模块, 将收集到的被护理人的各种身体体征信息连同电子标签身份定 期传送至区域性健康及生活资讯管理子系统;
[0073] 紧急推送模块, 若中央处理器判断收集到的数据出现异常, 则即吋传送至区域 性健康及生活资讯管理子系统;
[0074] 中央处理器, 把收集到的各种身体体征信息做分析判断, 控制整个可穿戴健康 监测设备运行;
[0075] 电源模块, 为整个可穿戴健康监测设备提供电源;
[0076] 可编程芯片, 根据三方幵发接口输入的需要修改的新程序对系统内的程序进行 修改;
[0077] 无线通讯模块, 与区域性健康及生活资讯管理子系统进行无线通信;
[0078] 存储器, 对收集到的各种身体体征信息和判断结果在设定吋间内进行存储。
[0079] 电子标签模块存储每个可穿戴健康监测设备的唯一电子标签身份, 通过无线传 输的方式与各种身体体征和各感应模块处理后得到的结果一起发送出去。 所述 无线通讯模块通过 wifi、 4G或蓝牙等方式传输把各种身体体征和各感应模块处理 后得到的结果发送出去。
[0080] 所述电路板上的各模块作为基础模块, 通过三方幵发接口把修改的程序输入可 编程芯片内进行程序修改, 以对基础模块进行修改或者重新幵发一些新的体征 感应模块。
[0081] 所述身体体征收集传感器负责收集人体各种身体体征 (包括体温、 脉搏、 动力 、 血压、 心率, 等等) , 再把各种身体体征反馈到身体体征收集模块, 中央处 理器把不同的身体体征信息进行处理, 再把处理后的结果通过显示器显示出来 或者上传到其他存储系统。 具体地, 所述中央处理器把监测到的体温信息与预 设体温进行比较, 若监测到的体温信息大于或小于预设体温, 则发出报警, 若 监测到的体温信息在预设体温范围内, 则不动作; 中央处理器把监测到的脉搏 信息进行处理, 若脉搏数据呈现既定规则, 则发出报警; 中央处理器把监测到 的动力信息 (如一分钟内步行多少步, 被护理人是否有跌倒、 昏倒现象, 监测 睡眠吋动作来观察睡眠质素, 等等, 都属于动力信息) 进行处理, 通过监测动 力信息判断对被护理人的身体是否异常 (如跌倒、 昏倒) , 若异常则发出报警 。 所述警报装置可以采用声音提示警报装置或者灯光闪烁警报装置。
[0082] 如图 3所示, 具体地, 所述生活资讯外部管理子系统可以根据需要采用各种阅 读器的结构实现。
[0083] 所述生活资讯外部管理子系统包括阅读器本体和设置在阅读器本体内的电路板
[0084] 所述阅读器本体上设置有:
[0085] 三方幵发接口, 输入需要修改的新程序;
[0086] 录入装置, 手动或自动录入被护理人的日常生活行为事件; (把日常生活行为 事件通过手动或自动输入, 如, 当护士给病人吃药后, 手动输入吃药事件; 当 病人正用心跳或医疗仪器, 使用 USB或无线技术把数据同步输入) ;
[0087] 所述电路板上设置有:
[0088] 中央处理器, 控制整个生活资讯外部管理子系统运行;
[0089] 电子标签阅读模块, 读取可穿戴健康监测设备上的唯一电子标签身份;
[0090] 外部数据收集模块, 收集录入装置手动或自动录入的被护理人的日常生活行为 事件;
[0091] 生活行为 ID生成模块 (图中未画出) , 根据外部数据收集模块收集的日常生活 行为事件做出定义编号 (如, 吃药定义编号为 100, 用餐定义编号为 101, 饮水 定义编号为 102, 等等, 方便区域性健康及生活资讯管理子系统的研发和统一资 料收集) ;
[0092] 通讯模块, 把生活资讯外部管理子系统收集到的生活资讯通过无线通讯的方式 传输至区域性健康及生活资讯管理子系统;
[0093] 资料推送模块, 把由外部数据收集模块收集到的的常生活行为事件连同电子标 签身份通过通讯模块传输至区域性健康及生活资讯管理子系统;
[0094] 可编程芯片, 根据三方幵发接口输入的需要修改的新程序对系统内的程序进行 修改。
[0095] 如图 4所示, 具体地, 所述区域性健康及生活资讯管理子系统对信息进行管理 、 上报、 通知、 分享给亲人或医护人员、 看护或医疗机构管理, 定期报告和 KPI
(绩效指标) 等。 所述区域性健康及生活资讯管理子系统包括:
[0096] 区域数据收集模块, 负责收集可穿戴健康监测设备和生活资讯外部管理子系统 的信息;
[0097] 区域资料分析模块, 接收大数据健康及生活资讯收集及研发子系统的标准模型 , 并根据区域数据收集模块收集到的数据做分析, 与大数据健康及生活资讯收 集及研发子系统做分析互动;
[0098] 区域行动模块, 根据大数据健康及生活资讯收集及研发子系统得到的指令按危 机等级作出相应的动作, 并反馈至大数据健康及生活资讯收集及研发子系统 ( 如, 发烧了, 通知亲人、 註院医生、 护士; 若情况危急, 通知院长、 报警) ;
[0099] 区域报告模块, 定期把收集到的信息进行汇总整理;
[0100] 区域定期上传模块, 把收集到的信息定期上传至大数据健康及生活资讯收集及 研发子系统 (例如, 以每秒 20次的频率向大数据健康及生活资讯收集及研发子
系统上传脉搏体征信息) ;
[0101] 区域数据接口模块, 根据大数据健康及生活资讯收集及研发子系统的指令要求 把需要的数据发送至大数据健康及生活资讯收集及研发子系统 (例如, 大数据 健康及生活资讯收集及研发子系统需要做一个课题, 吃饭跟心跳有什么关系, 这吋区域数据接口模块就要把吃饭吋间和对应的心跳体征信息发送至大数据健 康及生活资讯收集及研发子系统) ;
[0102] 区域政策执行模块, 接收大数据健康及生活资讯收集及研发子系统的政策并执 行 (例如, 大数据健康及生活资讯收集及研发子系统把原来要求区域定期上传 模块以每秒 20次的频率上传脉搏体征信息改成要求区域定期上传模块以每秒 10 次的频率上传脉搏体征信息) 。
[0103] 如图 4所示, 具体地, 所述大数据健康及生活资讯收集及研发子系统包括: [0104] 大数据收集模块, 接收区域性健康及生活资讯管理子系统上传的数据;
[0105] 行动模块, 控制区域性健康及生活资讯管理子系统动作或代替区域性健康及生 活资讯管理子系统按危机等级作出相应的动作 (如, 接收到区域性健康及生活 资讯管理子系统上传的数据显示有一被护理人没有喂药, 行动模块发送指令至 区域行动模块, 区域行动模块根据指令按危机等级作出相应行为执行相应的动 作, 如通知护士、 医生, 等) ;
[0106] 报告模块, 定期把收集到的信息进行汇总整理;
[0107] 分析管理模块, 根据收集到的信息建立标准模型, 把收集到的信息与标准模型 做比较判断, 得出指令, 推送标准模型至区域性健康及生活资讯管理子系统, 并根据区域性健康及生活资讯管理子系统传输的资料做高层次二次分析;
[0108] 数据接口模块, 与其他数据分析研究机构共享资料。
[0109] 现把上述所述的基于可穿戴及外置设备整合的健康管理系统应用于老人院加以 说明:
[0110] 有一位新的老人入住老人院, 护士为老人佩戴上可穿戴健康监测设备, 可穿戴 健康监测设备上的电子标签模块存储每个可穿戴健康监测设备的唯一电子标签 身份, 身体体征收集传感器实吋收集被老人的各种身体体征信息并反馈至身体 体征收集模块, 中央处理器控制定期推送模块将收集到的老人各种身体体征信
息连同电子标签身份通过无线通讯模块定期传送至区域数据收集模块, 中央处 理器同吋根据收集到的各种身体体征信息做分析判断, 若中央处理器分析判断 老人身体体征出现异常情况 (如发烧, 血压过高, 等) , 则控制紧急推送模块 把老人身体体征通过无线通讯模块即吋传送至区域数据收集模块, 并控制警报 装置动作作出报警提示。
[0111] 所述生活资讯外部管理子系统记录老人的日常生活行为, 护士手持阅读器本体
, 如给老人吃药了, 护士利用手持阅读器读取可穿戴健康监测设备上的电子标 签身份, 并通过录入装置手动输入吃药行为, 生活行为 ID生成模块给吃药行为 定义编号 100, 资料推送模块将吃药行为编号 100连同电子标签身份通过通讯模 块传输至区域数据收集模块; 若到吋间护士没有给老人吃药, 生活行为 ID生成 模块自动生成无行为定义编号 000, 资料推送模块将无行为定义编号 000连同电 子标签身份通过通讯模块传输至区域数据收集模块。
[0112] 所述区域定期上传模块将区域数据收集模块收集到的老人身体体征信息和日常 生活行为信息定期上传至大数据收集模块, 分析管理模块根据收集到多个区域 定期上传模块上传的信息建立标准模型, 把收集到的老人信息与标准模型做比 较判断, 得出指令, 推送标准模型至区域资料分析模块, 并根据区域性健康及 生活资讯管理子系统传输的资料做高层次二次分析, 行动模块根据分析管理模 块得出的指令控制区域行动模块按危机等级执行相应的动作 (如可穿戴健康监 测设备监测到老人体温了, 上传信息至区域数据收集模块, 区域定期上传模块 将老人体温信息上传至大数据收集模块, 分析管理模块把体温信息与标准模型 做比较判断得出老人发烧了, 行动模块根据发烧信息控制区域行动模块通知监 护人, 驻院医生, 护士, 若区域行动模块没有收到相关人士的反馈信息, 即通 知行动模块, 行动模块作出报警动作) ; 当区域行动模块出现故障不行正常运 行吋, 行动模块就会动作代替区域行动模块执行相应的动作。
[0113] 区域资料分析模块接收分析管理模块提供的标准模型, 并根据区域数据收集模 块收集到的数据做分析, 与分析管理模块做分析互动; 区域报告模块定期把收 集到的信息进行汇总整理; 行动模块根据研究需要控制区域数据接口模块把需 要的数据发送至大数据收集模块以作分析研究; 同吋行动模块根据需要把新的
政策指令发送至区域政策执行模块执行; 报告模块定期把大数据收集模块收集 到的信息进行汇总整理; 数据接口模块, 与其他数据分析研究机构共享资料。
[0114] 如图 5所示, 一种如上述所述的基于可穿戴及外置设备整合的健康管理系统的 健康管理方法, 具体包括以下步骤:
[0115] 步骤 A00: 可穿戴健康监测设备检测被护理人的身体体征, 把检测到的身体体 征连同电子标签身份传送至区域性健康及生活资讯管理子系统;
[0116] 步骤 B00: 生活资讯外部管理子系统读取可穿戴健康监测设备上的电子标签身 份, 将电子标签身份连同录入的日常生活行为事件传输至区域性健康及生活资 讯管理子系统;
[0117] 步骤 C00: 区域性健康及生活资讯管理子系统把收集到的身体体征信息和生活 资讯信息上传至大数据健康及生活资讯收集及研发子系统, 大数据健康及生活 资讯收集及研发子系统根据上传的数据进行分析归纳研究判断, 得出标准化模 型和指令, 把标准化模型反馈至区域性健康及生活资讯管理子系统, 同吋控制 区域性健康及生活资讯管理子系统执行相应动作;
[0118] 步骤 D00: 区域性健康及生活资讯管理子系统根据收集到的信息做分析并与大 数据健康及生活资讯收集及研发子系统互动。
[0119] 其中, 区域性健康及生活资讯管理子系统和大数据健康及生活资讯收集及研发 子系统可以采用云端系统实现; 整个基于可穿戴及外置设备整合的健康管理系 统有一个比较健全的监控过程, 避免被护理人因疏忽照顾而影响健康或出现意 夕卜; 本健康管理系统适用于大型公共护理场所, 如老人院, 护理院, 医院, 幼 儿园, 学校, 等等, 适用范围广, 具有普遍适用性。
[0120] 应当理解的是, 本发明的应用不限于上述的举例, 对本领域普通技术人员来说 , 可以根据上述说明加以改进或变换, 所有这些改进和变换都应属于本发明所 附权利要求的保护范围。
Claims
[权利要求 1] 种基于可穿戴及外置设备整合的健康管理系统, 其特征在于, 包括: 可穿戴健康监测设备, 检测被护理人的身体体征, 把检测到的身体体 征连同电子标签传送至区域性健康及生活资讯管理子系统; 生活资讯外部管理子系统, 读取可穿戴健康监测设备上的电子标签, 将电子标签连同录入的日常生活行为事件传输至区域性健康及生活资 讯管理子系统;
区域性健康及生活资讯管理子系统, 把收集到的身体体征信息和生活 资讯信息上传至大数据健康及生活资讯收集及研发子系统, 并根据大 数据健康及生活资讯收集及研发子系统的指令执行相应动作, 同吋接 收大数据健康及生活资讯收集及研发子系统的标准模型, 根据收集到 的信息做分析并与大数据健康及生活资讯收集及研发子系统互动; 大数据健康及生活资讯收集及研发子系统, 根据区域性健康及生活资 讯管理子系统上传的数据进行分析归纳研究判断, 得出标准化模型和 指令, 把标准化模型反馈至区域性健康及生活资讯管理子系统, 同吋 控制区域性健康及生活资讯管理子系统执行相应动作。
[权利要求 2] 根据权利要求 1所述的基于可穿戴及外置设备整合的健康管理系统, 其特征在于, 所述可穿戴健康监测设备包括穿戴设备本体和设置在穿 戴设备本体内的电路板;
所述穿戴设备本体上设置有:
身体体征收集传感器, 收集被护理人的各种身体体征信息; 所述电路板上设置有:
身体体征收集模块, 接收由身体体征收集传感器收集到的被护理人的 各种身体体征信息;
电子标签模块, 内置唯一电子标签身份;
定期推送模块, 将收集到的被护理人的各种身体体征信息连同电子标 签身份定期传送至区域性健康及生活资讯管理子系统;
紧急推送模块, 若中央处理器判断收集到的数据出现异常, 则即吋传
送至区域性健康及生活资讯管理子系统;
无线通讯模块, 与区域性健康及生活资讯管理子系统进行无线通信; 中央处理器, 把收集到的各种身体体征信息做分析判断, 控制整个可 穿戴健康监测设备运行;
电源模块, 为整个可穿戴健康监测设备提供电源。
[权利要求 3] 根据权利要求 1所述的基于可穿戴及外置设备整合的健康管理系统, 其特征在于, 所述生活资讯外部管理子系统包括阅读器本体和设置在 阅读器本体内的电路板;
所述阅读器本体上设置有:
录入装置, 手动或自动录入被护理人的日常生活行为事件; 所述电路板上设置有:
中央处理器, 控制整个生活资讯外部管理子系统运行;
电子标签阅读模块, 读取可穿戴健康监测设备上的唯一电子标签身份 外部数据收集模块, 收集录入装置手动或自动录入的被护理人的日常 生活行为事件;
通讯模块, 把信息通过无线通讯的方式传输至区域性健康及生活资讯 管理子系统;
资料推送模块, 把由外部数据收集模块收集到的的常生活行为事件连 同电子标签身份通过通讯模块传输至区域性健康及生活资讯管理子系 统。
[权利要求 4] 根据权利要求 1所述的基于可穿戴及外置设备整合的健康管理系统, 其特征在于, 所述区域性健康及生活资讯管理子系统包括: 区域数据收集模块, 负责收集可穿戴健康监测设备和生活资讯外部管 理子系统的信息;
区域资料分析模块, 接收大数据健康及生活资讯收集及研发子系统的 标准模型, 并根据区域数据收集模块收集到的数据做分析, 与大数据 健康及生活资讯收集及研发子系统做分析互动;
区域行动模块, 根据大数据健康及生活资讯收集及研发子系统发出的 指令按危机等级作出相应的动作, 并反馈至大数据健康及生活资讯收 集及研发子系统;
区域报告模块, 定期把收集到的信息进行汇总整理;
区域定期上传模块, 把收集到的信息定期上传至大数据健康及生活资 讯收集及研发子系统;
区域数据接口模块, 根据大数据健康及生活资讯收集及研发子系统的 指令要求把需要的数据发送至大数据健康及生活资讯收集及研发子系 统;
区域政策执行模块, 接收大数据健康及生活资讯收集及研发子系统的 政策并执行。
[权利要求 5] 根据权利要求 1所述的基于可穿戴及外置设备整合的健康管理系统, 其特征在于, 所述大数据健康及生活资讯收集及研发子系统包括: 大数据收集模块, 接收区域性健康及生活资讯管理子系统上传的数据 行动模块, 控制区域性健康及生活资讯管理子系统动作或代替区域性 健康及生活资讯管理子系统按危机等级作出相应的动作;
报告模块, 定期把收集到的信息进行汇总整理; 分析管理模块, 根据收集到的信息建立标准模型, 把收集到的信息与 标准模型做比较判断, 得出指令, 推送标准模型至区域性健康及生活 资讯管理子系统, 并根据区域性健康及生活资讯管理子系统传输的资 料做高层次二次分析;
数据接口模块, 与其他数据分析研究机构共享资料。
[权利要求 6] 根据权利要求 2所述的基于可穿戴及外置设备整合的健康管理系统, 其特征在于, 所述穿戴设备本体上设置有三方幵发接口, 输入需要修 改的新程序; 所述电路板上设置有可编程芯片, 根据三方幵发接口输 入的需要修改的新程序对系统内的程序进行修改。
[权利要求 7] 根据权利要求 2所述的基于可穿戴及外置设备整合的健康管理系统,
其特征在于, 所述电路板上设置有存储器, 对收集到的各种身体体征 信息进行存储。
[权利要求 8] 根据权利要求 2所述的基于可穿戴及外置设备整合的健康管理系统, 其特征在于, 所述穿戴设备本体上设置有警报装置, 根据中央处理器 得出的判断结果发出报警提醒。
[权利要求 9] 根据权利要求 3所述的基于可穿戴及外置设备整合的健康管理系统, 其特征在于, 所述阅读器本体上设置有: 三方幵发接口, 输入需要修 改的新程序;
所述电路板上设置有可编程芯片, 根据三方幵发接口输入的需要修改 的新程序对系统内的程序进行修改。
[权利要求 10] —种如权利要求 1-9任意一项所述的基于可穿戴及外置设备整合的健 康管理系统的管理方法, 其特征在于, 具体包括以下步骤: 步骤 A00: 可穿戴健康监测设备检测被护理人的身体体征, 把检测到 的身体体征连同电子标签身份传送至区域性健康及生活资讯管理子系 统;
步骤 B00: 生活资讯外部管理子系统读取可穿戴健康监测设备上的电 子标签身份, 将电子标签身份连同录入的日常生活行为事件传输至区 域性健康及生活资讯管理子系统;
步骤 C00: 区域性健康及生活资讯管理子系统把收集到的身体体征信 息和生活资讯信息上传至大数据健康及生活资讯收集及研发子系统, 大数据健康及生活资讯收集及研发子系统根据上传的数据进行分析归 纳研究判断, 得出标准化模型和指令, 把标准化模型反馈至区域性健 康及生活资讯管理子系统, 同吋控制区域性健康及生活资讯管理子系 统执行相应动作;
步骤 D00: 区域性健康及生活资讯管理子系统根据收集到的信息做分 析并与大数据健康及生活资讯收集及研发子系统互动。
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