WO2012040931A1 - 一种健康监护系统及其信息交互方法 - Google Patents
一种健康监护系统及其信息交互方法 Download PDFInfo
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- WO2012040931A1 WO2012040931A1 PCT/CN2010/077522 CN2010077522W WO2012040931A1 WO 2012040931 A1 WO2012040931 A1 WO 2012040931A1 CN 2010077522 W CN2010077522 W CN 2010077522W WO 2012040931 A1 WO2012040931 A1 WO 2012040931A1
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/0002—Remote monitoring of patients using telemetry, e.g. transmission of vital signals via a communication network
- A61B5/0015—Remote monitoring of patients using telemetry, e.g. transmission of vital signals via a communication network characterised by features of the telemetry system
- A61B5/0022—Monitoring a patient using a global network, e.g. telephone networks, internet
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- G—PHYSICS
- G16—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
- G16H—HEALTHCARE INFORMATICS, i.e. INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR THE HANDLING OR PROCESSING OF MEDICAL OR HEALTHCARE DATA
- G16H40/00—ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices
- G16H40/60—ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices for the operation of medical equipment or devices
- G16H40/67—ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices for the operation of medical equipment or devices for remote operation
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- the present invention relates to a health monitoring system, and more particularly to A health monitoring system that realizes real-time physiological health parameter detection mode by using communication network and internet technology.
- the invention also relates to a method of health monitoring information interaction.
- the existing health monitoring methods for the elderly mainly use household portable electrocardiogram, blood oxygen tester, blood glucose tester, electronic blood pressure monitor, etc.
- These home medical devices can provide a daily physiological state parameter value for the elderly, reminding the elderly People should pay attention to their physical health; however, they cannot accurately tell the elderly how to pay attention to their physical health problems, or how to deal with them in a timely manner when health problems arise.
- the elderly can also go to the community health service station or the hospital health service station to consult professional medical staff to inform them of the health problems that need attention.
- going to the hospital health service station or community health service station to consult professional medical staff it will take a lot of time to do queues, consultations, etc. Waiting for a long time; this waiting, laborious, laborious, labor Life hurts.
- the technical problem to be solved by the present invention is to provide a health monitoring system that realizes real-time, convenient and rapid physiological health parameter detection and health consultation by using the existing internet and communication network.
- the invention also provides a Health monitoring information interaction method.
- a health monitoring system including a mobile terminal, a physiological state parameter tester, and a health monitoring center;
- the physiological state parameter tester collects physiological state parameters of the user and transmits the parameters to the mobile terminal;
- the mobile terminal transmits the physiological state parameter to the health monitoring center via the communication network server;
- the health monitoring center performs diagnostic analysis on the received physiological state parameters, and feeds the analysis result to the mobile terminal through the communication network server;
- the mobile terminal is provided with a physiological state parameter processing module for encoding and decoding physiological state parameters.
- a health monitoring information interaction method includes the following steps:
- the mobile terminal initiates a request containing a physiological state parameter
- the communication network server verifies that the identity is acceptable; if it is qualified, the request is sent to the health monitoring center;
- the health monitoring center parses the request, obtains the physiological state parameter, stores and diagnoses the physiological state parameter Then, the analysis result is fed back to the mobile terminal through the communication network server.
- the present invention utilizes a communication network and an internetwork to implement a remote health monitoring system between a home and a health monitoring center, which can meet the trend of high quality of life and quality, and can also implement a medical information database.
- Resource sharing at the same time, it is convenient for the elderly to realize real-time health monitoring and health consultation at home, avoiding the tiredness of the boat and the fatigue of queuing registration.
- FIG. 1 is a schematic diagram of a network topology structure of a health monitoring system according to the present invention
- FIG. 2 is a schematic diagram of implementation of a communication network server as an intermediate end in the health monitoring information interaction method of the present invention
- FIG. 3 is a schematic diagram of an implementation of an internetwork server as an interaction middle end in the health monitoring information interaction method of the present invention
- Figure 5 is a block diagram showing the structure of the internal circuit board of the mobile phone when the blood glucose concentration is tested according to the health monitoring system of the present invention
- Figure 6 is a schematic diagram showing the demonstration of the blood glucose concentration of the health monitoring system of the present invention.
- the communication network server uses a 2G or 3G mobile communication network.
- the invention provides a health monitoring system, as shown in FIG. 1 , comprising a mobile terminal, a physiological state parameter tester and a health monitoring center; wherein the physiological state parameter tester, such as an electronic blood pressure meter, a blood glucose meter, an oximeter, A portable electrocardiogram, ear thermometer or pedometer is used to collect physiological parameters of the user, such as blood pressure, blood glucose concentration, blood oxygen saturation, electrocardiogram, body temperature or step count during walking exercise, and calorie expenditure index; The physiological state parameter tester transmits the physiological state parameters obtained by the test to a mobile terminal, such as a mobile phone or a palmtop computer, through a data line, such as a USB data line or a wireless transmission method, such as Bluetooth, and is configured to be processed on the mobile terminal.
- a mobile terminal such as a mobile phone or a palmtop computer
- a data line such as a USB data line or a wireless transmission method, such as Bluetooth
- the physiological state parameter processing module of the physiological state parameter encodes the received physiological state parameter, and then the physiological state parameter is transmitted by the mobile terminal to the health monitoring center via the communication network server by SMS or GPRS or 3G network mode.
- the health monitoring data server passes through the communication network server Said mobile terminal monitoring the exchange of information or data
- the center of the health monitoring mainly health care server
- the health care station of the health monitoring center or the medical staff of the hospital health service station will periodically or irregularly go to the health monitoring server to check the received physiological state parameters (that is, the health monitoring data).
- the server exchanges data or monitoring information with the community health service station and the hospital health service station via the Internet, and analyzes the user's health status according to these physiological state parameters, and then passes the analysis result and medical advice again through the communication network.
- the server feeds back to the user's mobile terminal in the form of SMS or GPRS or 3G network. Then, the decoder obtains relevant information; thus, the user can establish a convenient, rapid and timely health monitoring consultation or disease diagnosis with the medical staff through remote data exchange, and real-time online understanding of his physiological health status.
- the physiological state parameters of the appeal may be daily timing measurement, untimely measurement, pre-treatment measurement, post-treatment measurement, etc.
- Each physiological state parameter is given an attribute value for the aforementioned measurement mode, and is used for the health monitoring center to identify the data. This data will be more effective, and can provide reliable data support for trend analysis of the user's physiological parameters, drug suitability testing, and discomfort status data analysis.
- the above-mentioned users can also realize one-to-one health monitoring consultation or disease diagnosis by using a professional mobile terminal in the hands of the above-mentioned mobile terminal and the health care professional of the health monitoring center, such as a mobile phone or a palmtop computer, as needed;
- the process is mainly carried out by means of SMS or GPRS or 3G network.
- a physiological state parameter tester such as an electronic blood pressure monitor, a blood glucose meter, an oximeter, a portable electrocardiogram, an ear thermometer, or a pedometer, correspondingly, it is disposed on a circuit board of the mobile terminal for decoding.
- the physiological state parameter processing module encoding the physiological state parameter, such as the blood pressure processing module, the blood glucose concentration processing module, the blood oxygen saturation processing module, the electrocardiogram processing module, the ear temperature processing module or the step number processing module, measures the physiological state parameter tester
- the physiological state parameter is converted into a corresponding physiological state parameter value,
- blood pressure values including diastolic blood pressure, systolic blood pressure
- blood glucose concentration including diastolic blood pressure, systolic blood pressure
- blood glucose concentration including diastolic blood pressure, systolic blood pressure
- blood oxygen saturation processing module including electrocardiogram, body temperature or walking exercise statistics and calorie expenditure index.
- the blood pressure processing module, the blood glucose concentration processing module, the blood oxygen saturation processing module, the electrocardiogram processing module, the ear temperature processing module, or the step processing module may be separately disposed in a plurality of mobile terminals.
- a plurality of the above modules may be combined on one mobile terminal; thus, a mobile terminal can be used in combination with a plurality of physiological state parameter testers, which is very convenient to obtain different.
- physiological state parameter testers which is very convenient to obtain different.
- the health monitoring data server includes a public health information processing module for publishing and publicizing public health information, and is responsible for processing the health status analysis result sent by the mobile terminal about the user health monitoring parameter or the health monitoring center feedback.
- a SMS data processing module for short message or MMS, and a user identification module for receiving physiological health parameters of the user.
- the health monitoring data server is also a service platform for data exchange, storage, and management.
- the health care center's medical staff regularly sends public health information through the public health information processing module, and these public health information are processed through the short message data.
- the module is sent to the mobile terminal for short-term or multimedia message for the user to refer to; on the other hand, the medical staff of the Kang monitoring center consults the physiological state parameter information of the user (patient), and then analyzes and returns the health status analysis result. And sending health state guidance information to the mobile terminal by using a short message data processing module;
- the medical staff of the Kangjian Center provides a personalized service platform for the user through a user identification module disposed on the server, for example, the user registers the network on the service platform through the network computer, and the individual Information such as name, ID number and related health information is entered into the service platform; thus, the user can view, modify personal information, view past medical history, and related related information in a certain manner, such as SMS or GPRS or 3G network. Health guidance platform.
- the health monitoring system further includes a home health analysis device, such as a home PC or a data processor with a display, the home health analysis device exchanges data with the mobile terminal via the Internet or wireless transmission means, such as Bluetooth, the home health The analysis device exchanges data with the health monitoring center via the Internet.
- a home health analysis device such as a home PC or a data processor with a display
- the home health analysis device exchanges data with the mobile terminal via the Internet or wireless transmission means, such as Bluetooth, the home health
- the analysis device exchanges data with the health monitoring center via the Internet.
- professional physiology for measuring blood pressure, blood glucose concentration, blood oxygen saturation, electrocardiogram, body temperature or walking exercise statistics and calorie expenditure index is installed in a home PC or a data processor with a display screen.
- the data analysis module that is, the professional analysis software; the user can enter the user's own dedicated server through the Internet, at the prompt given by the user identification module, call up the relevant physiological state parameters, and analyze the health status in real time by using professional analysis software.
- the present invention also provides a position trajectory tracker in the mobile terminal, and the position trajectory tracker communicates with the communication network server.
- the base station performs real-time data exchange, and the exchanged data is stored in the health monitoring data server through the internet, or sent to the mobile phone of the relatives and friends, so as to know the user's location or action track in real time.
- the present invention further provides a method for implementing information interaction of the above system, which includes the following steps:
- the mobile terminal initiates a request containing a physiological state parameter
- the communication network server verifies that the identity is acceptable; if it is qualified, the request is sent to the health monitoring center;
- the health monitoring center parses the request, obtains the physiological state parameter, stores and diagnoses the analysis The physiological state parameter is then fed back to the mobile terminal via the communication network server.
- the mobile terminal user sends a request to the health monitoring center through the mobile phone, it can be verified by the communication network server whether the mobile terminal has opened the relevant health consultation service, as shown in FIG. 2; if yes, the request is passed through the network. Transmitting to the health monitoring center; if not, sending feedback information of the identity verification error to the mobile terminal; at the same time, the health monitoring center may also be equipped with a corresponding health monitoring data server for storing the physiological state parameters of the mobile terminal user and related health Status analysis results. As shown in FIG. 3, the health monitoring data server can also be set to verify the identity of the internet server and confirm whether the internet server has the right to the health consulting service.
- the related health consultation services mentioned above include real-time health consultation, feedback on physiological health parameter analysis results, subscription to personalized health information or public health information, etc. This service can be targeted at all mobile terminal users. Only for mobile terminal users who have opened related services on the Internet server.
- the above-mentioned personalized health information transmission method is: for all mobile terminal users, or mobile terminal users who open related services in the communication network server, the health monitoring center further includes the following steps:
- the health care personnel regularly check the physiological status parameters of the user who has personalized service stored on the health monitoring data server;
- the medical staff performs diagnostic analysis based on the physiological state parameters of the review. Obtaining the health status analysis result of the user, and providing corresponding health information according to the analysis result;
- the medical staff sends the health information to the mobile terminal through a communication network server for reference by the user.
- the health monitoring center can also periodically send public health information to the mobile terminal through the communication network server via SMS or GPRS or 3G network.
- the blood glucose concentration test is taken as an example for description; the physiological state parameter processing module set in the mobile terminal is an ordinary mobile phone of the blood glucose concentration processing module, and the physiological state parameter tester selects a blood glucose meter to test the blood glucose concentration of the user.
- the mobile phone built-in circuit board includes a communication module, a storage module, a display module, and the like, and further includes a physiological state parameter processing module, such as a blood glucose concentration processing module.
- the blood glucose concentration test function of the mobile phone 20 is activated, and the blood glucose meter 10 and the mobile phone 20 are connected by USB data line 21 or Bluetooth to perform data or Information exchange; the user inserts the test paper 11 into the test port of the blood glucose meter 10, and then according to the prompt of the mobile phone 20,
- the blood is collected by the test paper 12, and the blood glucose meter 10 starts the test after detecting the blood 12, and sends the blood glucose concentration test result to the blood sugar concentration processing module on the circuit board of the mobile phone 20 through the USB data line 21 or the Bluetooth method, and the blood sugar concentration processing module is Under the control or coordination of the microprocessor, the standard blood glucose concentration value stored on the storage module is called for comparison, and the comparison result and the numerical value of the blood glucose concentration are sent to the storage module for storage.
- the display module For later reference, or send the display module, display after character conversion, or send the comparison result and value of blood glucose concentration in the form of short message to the health monitoring center of the health monitoring center via the communication network server 60 and the wireless router 70 through the communication module.
- the data server 50, the health care center's professional medical staff 40 will analyze the blood glucose concentration based on the comparison results and values, combined with the user's actual situation, and analyze the results and / or health care recommendations through the Internet and communication network server 50 is fed back to the mobile phone 20 on the mobile phone user; or the comparison result and the numerical value of the blood glucose concentration are sent to the professional mobile terminal of the medical staff via the communication network server 60 in the form of a short message.
- This embodiment is a professional monitoring mobile phone, and the professional medical staff 40 of the health monitoring center will analyze according to the comparison result of the obtained blood glucose concentration, and feed back the analysis result and/or health maintenance suggestion to the mobile phone user through the Internet and communication network server 50. On the phone 20.
- the physiological state parameter processing module that the mobile terminal can internally decode and encode the physiological state parameter is a blood pressure processing module, a blood oxygen saturation processing module, an electrocardiogram processing module, and an ear temperature processing.
- the physiological state parameter tester uses one of an electronic sphygmomanometer, an oximeter, a portable electrocardiogram, an ear thermometer or a pedometer to perform blood pressure and oxygen saturation on the user. Tests such as electrocardiogram, body temperature, or step count during walking exercise and calorie expenditure index are similar to the blood glucose concentration test procedure.
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Description
技术领域
本发明涉及一种健康监护系统,尤其涉及
一种利用通讯网络和互联网技术实现实时的生理健康参数检测模式的健康监护系统 。本发明还涉及一种 健康监护信息交互方法。
背景技术
随着世界人口老龄化增速,老年人的健康问题也成了社会关注的热点。一些常见的老年病,如心血管病、糖尿病、高血脂症、高尿酸血症等时时危及着老年人的生命。因此,老年人的健康监护也就成了日常生活中的一部分。
现有老年人的健康监护手段主要是利用家用的便携式心电图、血氧测试仪、血糖测试仪、电子血压计等,这些家用医疗设备,可以为老年人提供一个日常的生理状态参数值,提醒老年人要注意自己的身体健康;但其无法准确告知老年人怎样去注意自己的身体健康问题,或在出现健康问题时,怎样进行得到及时的处理等。当然,老年人也可以去社区健康服务站或医院健康服务站咨询专业的医护人员,由其告知需要注意的健康问题。但是,就目前而言,去医院健康服务站或社区健康服务站咨询专业的医护人员,那就得耗费大量的时间去做排队挂号、咨询等漫长的等待;这种等待,耗心费力,劳命伤财。
发明内容
本发明所要解决的技术问题在于提供一种利用现有的互联网络和通讯网络,实现实时、方便、快捷的生理健康参数检测及健康咨询的健康监护系统。 本发明还提供一种
健康监护信息交互方法。
本发明的技术方案如下:
一种健康监护系统,其中,包括移动终端、生理状态参数测试仪、健康监护中心;
生理状态参数测试仪采集使用者的生理状态参数,传送至移动终端;
移动终端将生理状态参数经通讯网络服务器传输至健康监护中心;
健康监护中心将接收到的生理状态参数进行诊断分析,并将分析结果通过通讯网络服务器反馈至移动终端;
其中,所述移动终端上设有对生理状态参数进行编码解码的生理状态参数处理模块。
一种 健康监护信息交互方法, 包括如下步骤:
移动终端发起含有生理状态参数的请求;
通讯网络服务器验证身份是否合格;若合格则将请求发送至健康监护中心;
健康监护中心解析所述请求,获得所述生理状态参数, 存储并 诊断分析 所述生理状态参数
,随后将分析结果通过通讯网络服务器反馈至移动终端。
与现有技术相比,本发明利用通讯网络和互联网络,在家庭与健康监护中心之间实现远程健康监护系统,该系统可以满足人们对生活健康质量高要求的趋势,还可以实现医疗资料数据库资源共享;同时方便老年人在家实现实时健康监护和健康咨询,避免舟途劳累,以及排队挂号的疲劳之苦。
附图说明
图1为本发明健康监护系统的网络拓扑结构示意图;
图2为本发明健康监护信息交互方法中通讯网络服务器为交互中端的实现示意图;
图3为本发明健康监护信息交互方法中互联网络服务器为交互中端的实现示意图;
图4为本发明健康监护信息交互方法的实现流程图;
图5为本发明健康监护系统,用于测试血糖浓度时手机内部电路板结构方框图;
图6为本发明健康监护系统测试血糖浓度时的演示示意图。
具体实施方式
下面结合附图,对本发明的较佳实施例作进一步详细说明。本实施例中,通讯网络服务器采用2G或3G移动通讯网络。
本发明提供了一种健康监护系统,如图1所示,包括移动终端、生理状态参数测试仪、健康监护中心;其中,生理状态参数测试仪,如电子血压计、血糖仪、血氧仪、便携式心电图、耳温枪或计步器被用于采集使用者的生理状态参数,如血压、血糖浓度、血氧饱和度、心电图、体温或步行锻炼时的步数统计和热量消耗指数等;随后生理状态参数测试仪通过数据线,如USB数据线或无线传输方式,如蓝牙,将测试获得的生理状态参数传送至移动终端,如手机或掌上电脑等,并通过设置在移动终端上用于处理生理状态参数的生理状态参数处理模块,生理状态参数处理模块将接收到的生理状态参数进行编码后再由移动终端将生理状态参数经由通讯网络服务器以SMS或GPRS或3G网络方式传输至健康监护中心(即所述健康监护数据服务器通过所述通讯网络服务器与所述移动终端进行数据或监护信息交换),主要是健康监护中心的健康监护服务器,
同时,健康监护中心的社区健康服务站或医院健康服务站的医护人员将定时或不定时地到通过互联网到健康监护服务器上查阅所接收到的生理状态参数(也就是说,所述健康监护数据服务器通过互联网方式分别与社区健康服务站以及医院健康服务站进行数据或监护信息交换),并根据这些生理状态参数,对使用者的健康状态进行分析,随后将分析结果和医护建议再次通过通讯网络服务器以SMS或GPRS或3G网络方式反馈至使用者的移动终端,
然后解码获得相关信息;这样,使用者就可以通过远程数据交换的方式与医护人员建立方便、快速、及时的健康监护咨询或病情诊断,实时在线了解自己的生理健康状态。
上诉生理状态参数可以是日常定时测量,不适时测量,治疗前测量,治疗后测量等的值,每个生理状态参数针对前述测量方式给定一个属性值,用于健康监控中心对数据进行识别。这样数据将更加有效,可以对用户的生理参数进行趋势分析,药物适用性检测,不适状态数据分析等分析提供可靠的数据支持。
当然,上述的使用者也可以根据需要,利用上述移动终端与健康监护中心的专业医护人员手中的专业移动终端,如手机或掌上电脑实现一对一的健康监护咨询或病情诊断;这种数据交换过程主要采用SMS或GPRS或3G网络方式进行的。通过这种一对一的病情咨询,可以简化医护人员的数据查询时间,更有利于方便医护人员第一时间了解使用者(病人)的健康状态。
上述移动终端与生理状态参数测试仪,如电子血压计、血糖仪、血氧仪、便携式心电图、耳温枪或计步器配套使用时,相应地,设置在移动终端电路板上的用于解码编码生理状态参数的生理状态参数处理模块,如血压处理模块、血糖浓度处理模块、血氧饱和度处理模块、心电图处理模块、耳温处理模块或步数处理模块则将生理状态参数测试仪测得的生理状态参数转解码成相应的生理状态参数值,
如血压值(包括舒张压、收缩压)、血糖浓度、血氧饱和度、心电图、体温或步行锻炼时的步数统计和热量消耗指数等。实际上,这些血压处理模块、血糖浓度处理模块、血氧饱和度处理模块、心电图处理模块、耳温处理模块或步数处理模块可以单独设置在多个移动终端,
如手机或掌上电脑的主板电路上,也可以将多个上述模块组合设置在一个移动终端上;这样,可以通过一个移动终端,分别于多个生理状态参数测试仪配套使用,非常方便的获得不同的生理状态参数值。
上述健康监护数据服务器上,包括有用于发布、公告公共健康信息的公共健康信息处理模块,负责处理所述移动终端发送的有关使用者健康监护参数或者所述健康监护中心反馈的健康状态分析结果的短息或彩信的短信数据处理模块,以及接收使用者生理健康参数的用户识别模块。
实际上,该健康监护数据服务器也就是一个数据交换、存储、管理的服务平台,一方面健康监护中心的医护人员通过公共健康信息处理模块定期发送公共健康信息,这些公共健康信息则通过短信数据处理模块以短息或彩信的方式发送至移动终端,供使用者参阅;另一方面,康监护中心的医护人员查阅使用者(病人)的生理状态参数信息,然后进行分析、反馈健康状态分析结果,并通过短信数据处理模块发送健康状态指导信息至所述移动终端;
还有一方面,康监护中心的医护人员通过设置在该服务器上的用户识别模块,为使用者提供个性化的服务平台,如,使用者通过网络电脑在该服务平台进行网络注册,并将个人信息,如姓名、身份证号码以及相关健康信息输入到该服务平台上;这样,使用者可以按照一定的方式,如SMS或GPRS或3G网络方式查看、修改个人信息,查阅过往病史,以及相关的健康指导平台。
该健康监护系统还包括家用健康分析装置,如家用PC机或带显示屏的数据处理机,该家用健康分析装置通过互联网或无线传输方式,如蓝牙与所述移动终端进行数据交换,该家用健康分析装置通过互联网与所述健康监护中心进行数据交换。
实际使用时,在家用PC机或带显示屏的数据处理机内安装有用于处理血压、血糖浓度、血氧饱和度、心电图、体温或步行锻炼时的步数统计和热量消耗指数等的专业生理数据分析模块,即专业分析软件;使用者可以通过互联网,在用户识别模块给出的提示下,进入使用者自己的专用服务器,调出相关生理状态参数,并利用专业分析软件,实时分析健康状态。
有时候,为了实时了解使用者,尤其是患有老年痴呆症的老人所处的位置关系,本发明还在移动终端内设置一位置轨迹跟踪器,该位置轨迹跟踪器与通讯网络服务器,如通讯基站进行实时数据交换,并将交换后的数据通过互联网络存储在健康监护数据服务器,或这发送至亲朋好友的手机上,以便实时了解使用者的所处的位置或行动轨迹。
基于上述系统架构,如图4所示,本发明还提供了上述系统的信息交互实现方法,其包括以下步骤:
移动终端发起含有生理状态参数的请求;
通讯网络服务器验证身份是否合格;若合格则将请求发送至健康监护中心;
健康监护中心解析所述请求,获得所述生理状态参数,存储并 诊断分析
所述生理状态参数,随后将分析结果通过通讯网络服务器反馈至移动终端。
如图1所示,如果移动终端用户通过手机向健康监控中心发送请求,则可以如图2所示,通过通讯网络服务器验证移动终端是否开通了相关健康咨询服务;若是则将所述请求通过网络传送至所述健康监护中心;如果不是则向移动终端发送身份验证错误的反馈信息;同时,健康监护中心还可以配备相应的健康监护数据服务器,用于存储移动终端用户的生理状态参数及相关健康状态分析结果。
如图3所示,还可以设置健康监护数据服务器对互联网络服务器的身份进行验证,确认互联网络服务器是否享有健康咨询服务的权利。上述所提到的相关健康咨询服务,包括实时提供健康咨询,对生理健康参数分析结果的反馈,订阅个性化的健康信息或公共健康信息等等,这次服务可以针对所有移动终端用户,也可只针对在互联网络服务器开通相关服务的移动终端用户。
如图4所示的流程图,上述提到的个性化健康信息的传输方式是,针对所有移动终端用户,或者在通讯网络服务器开通相关服务的移动终端用户,健康监护中心还包括以下步骤:
医护人员定期查阅 健康监护数据 服务器上存储的享有个性化服务的使用者的生理状态参数;
医护人员依据查阅的生理状态参数并 进行诊断分析,
得到使用者的健康状态分析结果,根据分析结果,并提供相应的健康信息;
医护人员将所述健康信息通过通讯网络服务器发送至所述移动终端,供使用者参考。
如图4所示,健康监护中心还可以定期通过通讯网络服务器,以SMS或GPRS或3G网络方式向移动终端发送公共健康信息。
下面以血糖浓度测试为例进行说明;移动终端内设的生理状态参数处理模块为血糖浓度处理模块的普通手机,生理状态参数测试仪选用血糖仪,对使用者的血糖浓度进行测试。
如图1、5和6所示,所述手机内设电路板上包括通讯模块、存储模块、以及显示模块等,还包括生理状态参数处理模块,如血糖浓度处理模块。
当手机20与血糖仪10一起使用,用于测试使用者的血糖浓度时,启动手机20的血糖浓度测试功能,将血糖仪10与手机20通过USB数据线21或蓝牙方式连接起来,进行数据或信息交换;使用者将测试试纸11插入血糖仪10的测试端口,然后根据手机20提示,
用试纸进行采集血液12,血糖仪10检测到血液12后开始测试,并通过USB数据线21或蓝牙方式将血糖浓度测试结果送手机20电路板上的血糖浓度处理模块,该血糖浓度处理模块在微处理器的控制或协调下,调用存储在存储模块上的标准血糖浓度值进行比较,并将血糖浓度的比较结果及数值送存储模块存储,
以备后续查阅,或送显示模块,进行字符转换后显示,或通过通讯模块,将血糖浓度的比较结果及数值以短信的形式经由通讯网络服务器60及无线路由器70送至健康监护中心的健康监护数据服务器50,健康监护中心的专业医护人员40将根据获取到的血糖浓度的比较结果及数值,结合使用者的实际情况进行分析,并将分析结果和/或健康保养建议通过互联网和通讯网络服务器50反馈至手机用户上的手机20;或者将血糖浓度的比较结果及数值以短信的形式经由通讯网络服务器60送至医护人员的专业移动终端,
本实施例为专业监护手机,健康监护中心的专业医护人员40将根据获取到的血糖浓度的比较结果进行分析,并将分析结果和/或健康保养建议通过互联网和通讯网络服务器50反馈至手机用户上的手机20。
当然,使用者需要测试上述其他生理状态参数值时,移动终端可以内设的解码编码生理状态参数的生理状态参数处理模块为血压处理模块、血氧饱和度处理模块、心电图处理模块、耳温处理模块或步数处理模块中至少一个;生理状态参数测试仪选用电子血压计、血氧仪、便携式心电图、耳温枪或计步器中之一配套使用,对使用者进行血压、血氧饱和度、心电图、体温或步行锻炼时的步数统计和热量消耗指数等测试,其测试操作流程与血糖浓度测试流程类似。
应当理解的是,上述针对本发明较佳实施例的表述较为详细,并不能因此而认为是对本发明专利保护范围的限制,本发明的专利保护范围应以所附权利要求为准。
Claims (17)
- 一种健康监护系统,其特征在于,包括移动终端、生理状态参数测试仪、健康监护中心;生理状态参数测试仪采集使用者的生理状态参数,传送至移动终端;移动终端将生理状态参数经通讯网络服务器传输至健康监护中心;健康监护中心将接收到的生理状态参数进行诊断分析,并将分析结果通过通讯网络服务器反馈至移动终端;其中,所述移动终端上设有对生理状态参数进行编码解码的生理状态参数处理模块。
- 根据权利要求1所述的健康监护系统,其特征在于,所述生理状态参数测试仪通过数据线或无线传输方式将生理状态参数传输至所述移动终端。
- 根据权利要求1至2任一所述的健康监护系统,其特征在于,所述移动终端为手机或掌上电脑。
- 根据权利要求1所述的健康监护系统,其特征在于,所述生理状态参数测试仪包括电子血压计、耳温枪、便携式心电图仪、血氧仪、计步器以及血糖仪中的至少一个,相应地,所述生理状态参数处理模块包括血压处理模块、耳温处理模块、心电图处理模块、血氧饱和度处理模块、步数处理模块以及血糖浓度处理模块中的至少一个。
- 根据权利要求1所述的健康监护系统,其特征在于,所述健康监护中心包括对所述生理状态参数进行管理的健康监护数据服务器,以及提供专业医护人员的社区健康服务站和/或医院健康服务站; 所述健康监护数据服务器通过所述通讯网络服务器与所述移动终端进行数据或监护信息交换;所述健康监护数据服务器通过互联网方式分别与社区健康服务站以及医院健康服务站进行数据或监护信息交换。
- 根据权利要求5所述的健康监护系统,其特征在于,所述健康监护数据服务器通过SMS或GPRS或3G网络方式与所述移动终端进行数据或监护信息交换。
- 根据权利要求5所述的健康监护系统,其特征在于,所述健康监护数据服务器上包括用于发布、公告公共健康信息的公共健康信息处理模块,负责处理所述移动终端发送的有关使用者健康监护参数或者所述健康监护中心反馈的健康状态分析结果的短信数据处理模块,以及接收使用者生理健康参数的用户识别模块。
- 根据权利要求1所述的健康监护系统,其特征在于,所述健康监护中心包括所述健康监护中心医护人员手持的专业监护终端,医护人员利用该专业监护终端,通过SMS或GPRS或3G网络方式,经由所述通信网络服务器与所述移动终端进行数据或监护信息交换。
- 根据权利要求1所述的健康监护系统,其特征在于,该健康监护系统还包括用于对生理健康状态参数进行分析的家用健康分析装置,该家用健康分析装置通过互联网或无线传输方式与所述移动终端进行数据或监护信息交换,该家用健康分析装置通过互联网与所述健康监护中心进行数据或监护信息交换。
- 根据权利要求9所述的健康监护系统,其特征在于,所述家用健康分析装置为PC机或带显示屏的数据处理机,并在所述PC机或带显示屏的数据处理机内设置有用于分析处理生理状态参数的专业生理数据分析模块。
- 根据权利要求1所述的健康监护系统,其特征在于,在所述移动终端内设有位置轨迹跟踪器,该位置轨迹跟踪器可以对使用者所处的位置进行实时跟踪、定位。
- 根据权利要求1所述的健康监护系统,其特征在于,所述生理状态参数包括日常定时测量,不适时测量,治疗前测量,治疗后测量的参数值,每个生理状态参数针对测量方式给定一个属性值。
- 一种如权利要求 1 所述系统的信息交互方法,其特征在于,包括如下步骤:移动终端发起含有生理状态参数的请求;通讯网络服务器验证身份是否合格;若合格则将请求发送至健康监护中心;健康监护中心解析所述请求,获得所述生理状态参数, 存储并诊断分析所述生理状态参数, 随后将分析结果通过通讯网络服务器反馈至移动终端。
- 根据权利要求13所述的方法,其特征在于,所述健康监护中心包括对所述生理状态参数进行管理的健康监护数据服务器,以及提供专业医护人员的社区健康服务站和/或医院健康服务站; 所述健康监护数据服务器通过所述通讯网络服务器与所述移动终端进行数据或监护信息交换;所述健康监护数据服务器通过互联网方式分别与社区健康服务站以及医院健康服务站进行数据或监护信息交换。
- 根据权利要求 14 所述的方法,其特征在于,还包括如下步骤:医护人员定期查阅 健康监护数据服务器 上,调用存储在 健康监护数据服务器上 的享有个性化服务的使用者的生理状态参数;依据查阅的生理状态参数并 进行诊断分析 ,得到的分析结果;根据分析结果,选择相应的健康信息通过通讯网络服务器发送至所述移动终端。
- 根据权利要求14所述的方法,其特征在于,所述健康监护数据服务器通过SMS或GPRS或3G网络方式与所述移动终端进行数据或监护信息交换。
- 根据权利要求13所述的方法,其特征在于,健康监护中心还包括以下步骤:定期通过通讯网络服务器向移动终端发送公共健康信息。
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