CN103371801A - Pathology data monitoring system utilizing technology of internet-of-things - Google Patents

Pathology data monitoring system utilizing technology of internet-of-things Download PDF

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CN103371801A
CN103371801A CN2012101118143A CN201210111814A CN103371801A CN 103371801 A CN103371801 A CN 103371801A CN 2012101118143 A CN2012101118143 A CN 2012101118143A CN 201210111814 A CN201210111814 A CN 201210111814A CN 103371801 A CN103371801 A CN 103371801A
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data
user
module
wireless
monitoring system
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CN2012101118143A
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付永民
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苏州博康生物医疗科技有限公司
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Abstract

The invention discloses a pathology data monitoring system utilizing the technology of internet-of-things. The pathology data monitoring system comprises a user side device and a data processing platform. The user side device comprises an acquisition module which is worn by a user for acquiring physiological data of the user and a communication module which is used for sending the acquired physiological data to the data processing platform through a wireless communication network. The data processing platform comprises a maintenance module which is used for recording information of at least one remote terminal appointed by the user, an analysis processing module which is used for analyzing the acquired physiological data of the user, an alarm module which is used for generating alarm data when preset conditions are met and a notification module which is used for sending the alarm data to a remote terminal appointed by the user through a wireless communication network.

Description

运用物联网技术的病理数据监测系统 Using networking technology data monitoring system pathology

所属技术领域 Those of skill

[0001] 本发明涉及一种运用物联网技术的病理数据监测系统,以及该系统在多种移动终端设备上的软件实现,两者有机结合构成运用物联网技术的病理数据监测系统,属于物联网,嵌入式系统和无线通信的交叉领域。 [0001] The present invention relates to a system for monitoring the use of pathological data networking technology, and system software on the mobile terminal device to achieve a variety of both organic combination of pathologic data monitoring system including the use of networking technology, things belonging to cross embedded systems and wireless communications.

背景技术 Background technique

[0002] 物联网概念起源于比尔盖茨1995年《未来之路》-书,在《未来之路》中,比尔盖茨已经提及物联网概念,只是当时受限于无线网络、硬件及传感设备的发展,并未引起重视。 [0002] Things concept originated in 1995, Bill Gates, "The Road Ahead" - the book, the "The Road Ahead", the concept of things Bill Gates has been mentioned, but was limited to a wireless network, hardware and Communication develop a sense of equipment, did not pay attention.

[0003] 随着技术不断进步,国际电信联盟于2005年正式提出物联网概念,而今年奥巴马就职演讲 [0003] As technology advances, the International Telecommunication Union in 2005 formally proposed the concept of things, and this year his inauguration speech

后对IBM提出的“智慧地球”积极响应后,物联网再次引起广泛关注。 After the "wisdom of the Earth" to respond positively to IBM proposed, things once again aroused widespread concern. 而我国官方近期 In China, the recent official

对传 To pass

感网(物联网的另一称谓)的多次提议表示我国物联网的发展也正式提上议事日程,同 Sense network (another appellation of things) several times a vote of the development of things in our country officially on the agenda, with the

Time

也表明我国物联网的发展将加快。 Also it shows that the development of things China will speed up.

[0004] 所谓“物联网”(Internet of Things),指的是将各种信息传感设备,如传感器节点、射频识别(RFID)装置、红外感应器、全球定位系统、激光扫描器等种种装置与互联网结合起来而形成的一个巨大网络。 [0004] By "Things" (Internet of Things), it refers to various information sensing apparatus, such as a sensor node, a radio frequency identification (RFID) devices, infrared sensors, global positioning systems, laser scanners and various other devices and the Internet combine to form a huge network. 物联网框架应该由安全的API接口、骨干网络、可通过标准接口接入到骨干网络的设各网络构成。 Things to be a secure framework API interface, the backbone network, access may be through standard interfaces to the backbone network provided each network configuration.

[0005] 物联网又称“传感网”,以互联网为代表的计算机网络技术是二十世纪计算机科学的一项伟大成果,它给我们的生活带来了深刻的变化,然而在目前,网络功能再强大,网络世界再丰富,也终究是虚拟的,它与我们所生活的现实世界还是相隔的,在网络世界中,很难感知现实世界,很多事情还是不可能的,时代呼唤着新的网络技术。 [0005] Also known things "sensor network", represented by the Internet computer network technology is a computer science of the great achievements of the twentieth century, it gives our lives a profound change, however, at present, the network function no matter how powerful, rich online world again, and after all, is virtual, it is the real world we live in is separated, and in the online world, is difficult to perceive the real world, a lot of things still not possible, calling for a new era network technology.

[0006] 无线传感网络正是在这样的背景下应运而生的全新网络技术,它是由具有感知、处理和无线通信能力的传感器节点通过自组织方式形成的网络,它能够使我们延伸至更广阔的交互空间,获得围绕我们周围动态的状态信息,实现对于外围世界更加精确而深邃的认识和控制,因而在军事、环境、健康、家庭、交通、制造业、商业、设施管理、运输、安全、空间探索和灾难拯救等领域有着广阔的应用前景,对人们的生活和工作方式、产业发展和变革 [0006] The wireless sensor network is emerged in this context new network technology, which is a network formed by self-organization by the sensor having a sensing node, processing and wireless communication capabilities, which enable us to extend broader interaction space around us to get around the dynamic state information to achieve more accurate and profound understanding of the world and for peripheral control, and therefore in the military, the environment, health, family, transportation, manufacturing, commerce, facilities management, transportation, safety, space exploration, and disaster rescue and other fields have broad application prospects, on people's lives and work, industry development and change

产生革命性的影响。 A revolutionary impact.

[0007] 无线传感网络综合了微电子技术、嵌入式计算技术、现代计算机网络技术及无线通信技术、分布式信息处理技术等多种先进技术,网络中的节点能够相互协作地进行实时监测、感知和采集网络覆盖区域中各种环境或监测对象的信息,并对其进行处理,处理后的信息通过无线方式被发迭,并以自组多跳的网络方式传送给观察者。 [0007] The wireless sensor network integrated microelectronics technology, embedded computing technology advanced technologies, modern computer network technology and wireless communication technology, distributed information processing technology, the network nodes can cooperate with each other to perform real-time monitoring, information region or the object of environmental awareness and collecting network coverage, and processed, the processed information is sent wirelessly Diego, ad hoc manner and in a multi-hop network is transmitted to the viewer. 无线传感器网络将逻辑上的信息世界与客观上的物理世界融合在了一起,从而实现物理世界、计算世界以及人类社会三元世界的连通。 The wireless sensor network information on the physical world and the world objective logic brings together, in order to achieve the physical world, the computing world, and communication in human society world three yuan. 无`线传感器络作为当今信息与计算机领域的一个全新的研究方向,综合了多种学科的前沿技术,现在已经受到学术界和工业界的广泛关注。 `No line sensor network as today's information and computer field a new research direction, integrates many disciplines cutting-edge technology, is now widespread concern academia and industry.

[0008] 作为无线传感网络平台的硬件载体,无线传感器节点的设计需要遵循微型化,低功耗,扩展性强,稳定性高,安全性好,成本低等众多因素。 [0008] As hardware platform support wireless sensor network, the design of the wireless sensor nodes need to follow the miniaturization, low power consumption, scalability, high stability, good safety and low cost of many factors. 然而,作为一种新兴出现的技术,建立一个运转良好、鲁棒性好的无线传感器网络还是面临着许多挑战。 However, as a new emerging technology, the establishment of a well-run, well robust wireless sensor network is still faced with many challenges. 而且由于它的一些独特特性,无线传感器网络的设计方法与现有无线网络的设计方法有很大不同。 And because some of its unique characteristics, the design method of wireless sensor network is very different from the conventional design method of a wireless network. 例如,由于传感器网络中的传感器节点分布密集,所以需要大范围的数据管理和处理技术。 For example, since the sensor network sensor nodes densely distributed so require extensive data management and processing techniques. 除此之外,在实际应用中的WSNs (WirelessSensor Networks)并不能以一个独立的通信网络形式存在。 In addition, WSNs in practical application (WirelessSensor Networks) does not exist in the form of a separate network communication. 网络中监测的数据需要发送到上层服务器进行分析、处理,同时上层服务器端Internet对网络的www服务、FTP服务等需要将相关命令下发到WSNs中的节点,且不同类型的WSNs节点间也需要通信共享信息。 Network Monitoring data needs to be sent to the upper layer server for analysis, processing, while the upper server Internet network of www services, FTP services need to send relevant command to WSNs a node, and different types of WSNs node need communication to share information. 这都需要WSNs实现与不同类型网络间的互联。 Both require WSNs achieve interconnection and between different types of networks.

[0009] 在无线传感器网络中网关担当网络间的协议转换器,不同网络类型的网络路由器,全网数据聚集,存储处理等重要角色,成为网络间连接的不可缺少的纽带。 [0009] The protocol converter serves as a gateway between networks in a wireless sensor network, an important role in various types of network routers networks, the entire network of data gathering, processing, storage, become an indispensable link between the network connection. 传统的WSNs网关是利用汇聚节点与PC相结合来实现的,利用PC与外部网络连接将无线传感器网络的数据进行远距离传输。 WSNs using conventional convergence node and the gateway PC to achieve the combination of, wireless sensor networks using data PC is connected to the external network will be long-distance transmission.

[0010] 随着物联网(Internet of Things)概念的提出和目前国内对物联网技术的政策支持,物联网在未来具有很强的发展趋势,物联网可以在智能医疗、智能家居、智能城市、智能环保、智能交通、智能农业等领域大有作为。 [0010] As the Internet of Things (Internet of Things) concept and domestic policy support networking technology, things have a strong development trend in the future, things can be intelligent medical, smart home, smart cities, smart environmental protection, intelligent transportation, smart agriculture and other fields accomplish much. 我们可以这么去理解物联网:物联网是一个基于传感器的感知技术,结合各种网络及组网,使各个传感器融合成为一个整体的系统。 So we can to understand things: of things is a perception based on sensor technology, combined with a variety of networks and networking, so that each sensor fusion system as a whole. 物联网可以实现人与物之间的识别和感知,对物具有智能管理作用。 Things can achieve recognition and perception between people and things, with intelligent management action in rem. 而在医疗领域,医疗物联网包括躯感网,是通过医学传感器与移动通信设备捕获和传输人体的生理参数指标,如人体的血压、脉搏、血糖、心电、体温、呼吸等生命相关参数进行监控并将这些参数上传到服务器上,供医护人员或亲友查阅,从而对疾病进行有效的监控和预防。 In the medical field, medical things include footer sensing network is, as the body's blood pressure, pulse, blood glucose, ECG, temperature, respiration and other vital parameters by medical sensors with the mobile communication device to capture and physiological index transfer of the human body these parameters are monitored and uploaded to the server for access to the medical staff or relatives, so that effective monitoring of the disease and prevention.

[0011] 因此,如何创造一种创新的病理数据监测系统,以在提高日常监护适用性的基础上,使得病人本人或其相关亲友能够方便快捷、清楚简明地获知病人的身体情况,成为目前需要本领域技术人员迫切解决的一个技术问题。 [0011] Therefore, how to create an innovative pathological data monitoring system to monitor daily basis to improve the applicability of such patients themselves or their relatives and friends associated with quick and easy, clearly and concisely informed of the patient's physical condition, need to become skilled in the art urgently addressed a technical problem.

发明内容 SUMMARY

[0012] 本发明所要解决的技术问题是提供一种运用物联网技术的病理数据监测系统,以在提高日常监护适用性的基础上,使得病人本人或其相关亲友能够方便快捷、清楚简明地获知病人的身体情况。 [0012] The present invention solves the technical problem is to provide a networking technology using pathological data monitoring system to monitor daily basis to improve the applicability, so that the patient or his family and friends can be associated convenient, clearly and concisely known the patient's physical condition.

[0013] 为了解决上述问题,本发明公开了运用物联网技术的病理数据监测系统,包括:用户端装置,包括采集模块,用于通过佩戴在用户身上采集用户的生理数据;通信模块,用于将所采集的生理数据经无线通信网络发送到数据处理平台;数据处理平台,包括以下模块:维护模块,用于记录所述用户指定的至少一个远程终端的信息;分析处理模块,用于对所收集的该用户的生理数据进行分析处理;报警模块,用于在满足预设条件时产生报警数据;通知模块,用于将所述报警数据经无线通信网络发送至该用户指定的远程终端上。 [0013] In order to solve the above problems, the present invention discloses a monitoring system using pathological data networking technology, comprising: a client device, comprising acquisition means for acquiring physiological data by the user on the user worn; a communication module for the collected physiological data transmitted via the wireless communication network to a data processing platform; data processing platform, comprising the following modules: the service module, the at least one remote terminal for the information specified by the user is recorded; evaluation module, for the the user's physiological data collected was analyzed process; alarm means for generating alarm data when the predetermined condition is satisfied; notification module, configured to transmit the alarm data via the radio communication network to the remote terminal designated by the user. 优选的,所述报警数据包括第一报警数据,所述用户端装置还包括:本地报警及触发模块,用于在采集到用户的生理数据超出正常范围时,在用户端装置发起报警;所述通信模块还用于即时将生理数据异常信息经无线通信网络发送至数据处理平台;关联度通知单元,用于将所述报警数据经无线通信网络发送至具有最高关联度的远程终端上,并等待该最高关联度远程终端的反馈;若在预设时间内无反馈,则将所述报警数据经无线通信网络发送至具有次高关联度的远程终端上。 Preferably, the first alarm data comprises alarm data, said client apparatus further comprising: triggering a local alarm and means for collecting the physiological data when the user is out of the normal range, the alarm initiating client device; the the communication module is further configured for real time physiological information to the abnormality data processing platform via the wireless data communication network; degree of association notification unit for transmitting the alarm data via the radio communication network to the remote terminal having the highest degree of relevance, and waiting the highest relevance feedback remote terminal; if no feedback within a preset time, the alarm data is transmitted over a wireless communication network to a remote terminal having a second highest degree of association will be said. 优选的,所述通信模块为当前用户的远程终端;所述用户端装置还包括:预处理模块,用于依据所述通信模块的传输接口及可识别的数据格式,将所述生理数据进行格式转换并传输至通信模块。 Preferably, the communication module for the current user of the remote terminal; said client apparatus further comprising: a preprocessing module, according to the communication module for transmission interface and a data format recognizable, the physiological data format converted and transmitted to the communication module. 优选的,所述数据处理平台的分析处理模块包括:解析单元,用于解析所接收的生理数据;加密存储单元,用于对所接收的生理数据进行加密后并存储至数据库中。 Preferably, the data processing platform evaluation module comprising: a parsing unit for parsing the received physiological data; encrypting a storage unit for the physiological data after the received encrypted and stored in a database. 优选的,所述数据处理平台还包括:定期汇报模块,用于定期向所述用户指定的远程终端反馈该用户的健康指导信息,所述健康指导信息与用户相应时段的生理数据统计结果相匹配。 Preferably, the data processing platform further comprising: a periodic reporting module for periodically assigned to the remote terminal user feedback information of the user's health guide, the physiological health guidance information data statistics match a user respective period . 优选的,所述经无线通信网络发送的方式为采用短消息的方式发送;所述报警数据·为与一项或者多项生理数据的数位匹配的报警文本信息。 Preferably, the wireless communication network by transmitting the transmission mode to use short message; · said alarm data for the alarm text and digital information match one or more of the physiological data. 优选的,所述用户指定的远程终端还包括急救中心通信终端,所述第一分析处理单元还用于对所采集的第一生理数据和/或第二生理数据进行分析,获得所收集的生理数据是否达到预置紧急情况参考值的分析结果,所述数据处理平台还包括:用户定位模块,用于定位用户所在的地理位置;急救中心呼叫模块,用于在所收集的生理数据达到预置紧急情况参考值时,依据用户的定位信息通知附近的急救中心。 Preferably, the user specified remote terminal further comprises emergency center communication terminal, the first processing unit is further configured to analyzing the acquired first physiological data and / or the second physiological data analyzed to obtain the collected physiological if the analysis result data reaches the preset reference value of an emergency, the data processing platform further comprises: a user positioning module for locating geographic location of a user; emergency center call module, configured to physiological data collected reaches the preset emergency reference, notify the emergency center near the location information based on the user.

[0014] 本发明还公开了一种运用物联网技术的病理数据监测系统,包括:通过用户端装置采集用户的生理数据;将所采集的生理数据经无线通信网络发送到数据处理平台;数据处理平台对所收集的该用户的生理数据进行分析处理,并在满足预设条件时产生报警数据;将所述报警数据经无线通信网络发送至该用户指定的远程终端上。 [0014] The present invention also discloses a system for monitoring a pathology data using networking technology, comprising: a physiological data acquisition device user via the user terminal; physiological data acquired to the data processing platform via a wireless communication network; data processing platform physiological data collected by the user analyze and process the data and generate an alarm when the predetermined condition is satisfied; alarm data transmitted over the radio communication network to the remote terminal designated by the user.

附图说明 BRIEF DESCRIPTION

[0015] 本专利申请的权利要求书中,具体地指出了本发明的主题,并清楚地对其提出了专利保护。 [0015] claimed in the present patent application for patent protection book clearly its requests, the subject matter particularly pointed out in the present invention, and. 然而参照下面的详细说明和附图,可以更好的理解本发明的有关结构和实现方法以及其目的、特征和优势。 However, reference to the following detailed description and drawings, may be better understood and implemented methods relating to the structure of the present invention and its objects, features and advantages.

[0016] [0016]

图1为运用物联网技术的病理数据监测系统。 FIG 1 is a networking technology using pathological data monitoring system.

具体实施方式 Detailed ways

[0017] 在以下的详细说明中,描述了特定的细节以便提供对本发明全面的理解。 [0017] In the following detailed description, specific details are described to provide a thorough understanding of the present invention. 然而本专业的技术人员会认识到,本发明也可以用其它相类似的细节实施。 However, those skilled in the art will recognize that the present invention may be practiced with other similar details.

[0018] 运用物联网技术的病理数据监测系统,将各种生理传感器统一设计,设计统一的数据总线电源供应接口。 [0018] The use of networking technology pathological data monitoring system, the various physiological sensors unified design, design-unified interface to a data bus power supply. 该系统包括电源总线、数据总线、唤醒控制总线,这三根总线分别连接各 The system includes a power bus, a data bus, a control bus wake-up, which are connected to each of the three buses

个部件。 Parts. 部件包括电池、控制管理、无线发射、呼吸传感器、体温监测传感器、心电监测传感器、血压传感器。 Means including a battery, control and management, a wireless transmitter, a respiration sensor, temperature monitoring sensors, ECG monitoring sensor, a blood pressure sensor.

[0019] 所采集的生理数据可以包括:体温、血压、脉搏、心电图、氧浓度、肺活量、血糖和呼吸频率中的一项或者多项数据组合。 Physiological data [0019] collected may include: a combination of one or more of temperature data, blood pressure, pulse, electrocardiogram, oxygen concentration, lung capacity, blood and respiratory frequencies. 该用户端装置可以包括红外测温仪监测体温数据。 The client device may include an infrared thermometer to monitor the temperature data. 红外测温仪测温的膘理是将人体发射的红外辐射能量转变成电信号,由于红外辐射能量的大小与人体本身的温度是相关联的,根据转变成的电信号大小,就可以确定人体体温。 Infrared thermometer fat processing temperature of the infrared radiation is emitted by the body's energy into electrical signals, infrared radiation energy due to the size and temperature of the human body itself is associated, into an electrical signal according to the size of the body can be determined body temperature. 依据此原理,通过测定人体额头的表面温度,修正额头与实际体温的温差便能显示准确的体温。 Based on this principle, by measuring the surface temperature of forehead, the forehead and the correction of the temperature difference between the actual temperature will be able to display an accurate body temperature. 使用时,只须将用户端装置的探测窗口对准用户额头位置,就能快速、方便、准确的测得人体温度。 When used, the detection window only to client device user forehead aligned position, to quickly, easily and accurately measured body temperature. 该用户端装置还可以包括电子血压计检测血压数据。 The client device may further comprise an electronic sphygmomanometer detecting blood pressure data. 在这种情况下,该用户端装置的佩戴方式可以采用臂式、腕式或者手指式,对于臂式装置,则直接测得人体体表大血管的血压;对于腕式和手指式装置,则首先测量人体末端小血管的血压,然后再通过换算,得出大血管的血压。 In this case, the client device worn embodiment may be employed arm, wrist or finger type, means for the arm, the blood pressure measured directly and large blood vessels of human body; for wrist and finger-type device, first, blood pressure measurement body distal small blood vessels, then through the conversion, a large draw blood vessels. 该用户端装置还可以在腕部利用模拟通道采集震动传感信号完成计数,以进行脉搏的测量;利用模拟通道连续采集心电传感信号完成心电图的采集;其它生理数据的采集均可以利用现代生物传感技术。 The client device may also be used in the wrist motion sensor signals the analog channel counting is completed, to the measurement pulse; using a continuous analog channel acquisition ECG electrocardiogram sensed signal acquisition is completed; other physiological data can be collected using modern biosensor technology. 通过将体温、血压、脉搏、心电图、心磁、氧浓度、肺活量、血糖和呼吸频率等多种人体生理数据的采集功能集中于一体,具有集成化、采集数据多样化、佩戴便携化的性能,并且无需由医护人员提供专业的传感器连接操作,由病人或亲友简单佩戴或携带即可,从而提高了日常遁用性。 By body temperature, blood pressure, pulse, ECG, MCG, oxygen concentration, lung capacity, respiratory rate, blood glucose and other physiological data acquisition function is concentrated in one, having integrated, diversification data collection, wear performance of portability, and the need to provide professional operation by health care professionals sensor is connected, the simple can be worn or carried, thereby increasing the daily use of the escape by the patient or relatives.

[0020] 虽然此处说明描述了本发明的某此特征及一种实现方法,但是对于本专业的技术人员来说,将会出现许多修改、替换、变化和等效代换。 [0020] Although described here and this feature is described a method for implementing the present invention, but for the person skilled in the art, there will be many modifications, substitutions, changes and equivalents substitution. 因此,本发明的保护范围由所附的权利要求的范围为准。 Accordingly, the scope of the present invention is defined by the appended claims scope of equivalents. · ·

Claims (7)

1.运用物联网技术的病理数据监测系统,其特征在于,包括:无线传感器节点,网关,用户端装置,包括采集模块,用于通过用户终端采集用户的生理数据;通信模块,用于将所采集的生理数据经无线通信网络发送到数据处理平台;数据处理平台,包括以下模块:维护模块,用于记录所述用户指定的至少一个远程终端的信息;分析处理模块,用于对所收集的该用户的生理数据进行分析处理;接收分析模块;报警模块,用于在满足预设条件时产生报警数据;通知模块,用于将所述报警数据经无线通信网络发送至该用户指定的远程终端上。 1. Pathological data monitoring system using networking technology, characterized by comprising: a wireless sensor node, the gateway, the client apparatus comprises an acquisition module for acquiring physiological data of the user terminal by a user; a communication module for the send the collected physiological data over a wireless communication network to a data processing platform; data processing platform, comprising the following modules: the service module, at least one information terminal of the user specified remote recording; evaluation means for the collected the user's physiological data analysis process; receives the analysis module; alarm means for generating alarm data when the predetermined condition is satisfied; notification module, for transmitting said alarm data to the user specified remote terminal via a wireless communication network on.
2.根据权利要求1所述的用物联网技术的病理数据监测系统,其特征在于:该传感节点的设计与实现:本发明中的无线传感器节点包括以下基本组成部分:a)多类型医疗传感部件:有高频脉冲式脉搏传感部件、高精度快速响应式体温传感部件、接触式高分辨率血氧传感部件,这些传感部件以USB接口的形式同无线传感器网络节点直接相连;其中,体温传感部件通过一线接口连接、脉搏传感部件通过通用I/O 口连接、 血氧传感部件通过模数转换接口连接;b)无线传感器网络芾点:以8位RISC微处理器为核心,拥有128KB的Flash及512KB 的SRAM,其主频为8MHZ,·满足较大数据量的处理需求;c) ZigBee无线通信模块:以CC2420无线通信模块为核心,拥有最大250Kbps的传输速率,足以满足多类型医疗数据的传感需求。 The object with the pathology of monitoring system according to claim 1 networking technology, wherein: Design and implementation of the sensing node: in the wireless sensor nodes of the present invention comprises the following basic components: a) multi-type medical sensing means: a high-frequency pulse of the pulse sensor unit, high accuracy and fast response to temperature sensing member formula, high resolution contact type oxygen sensing element, the sensing component in the form of a USB interface directly with the wireless sensor network node It is connected; wherein the temperature sensing means is connected through the interface line, the pulse sensor unit through a common I / O port connected to the oxygen sensor means are connected by analog to digital conversion interfaces; b) Fu point wireless sensor networks: 8-bit RISC microcontrollers processor core, with Flash and SRAM 128KB to 512KB, which is clocked at 8MHZ, · meet the demand for larger amount of data processing; c) ZigBee wireless communication module: a wireless communication module CC2420 to the core, has the largest transmission 250Kbps rate sufficient to meet the needs of many types of medical sensor data.
3.根据权利要求1所述的用物联网技术的病理数据监测系统,其特征在于:规划网关所需完成的总体功能和基本性能指标:网关需完成实时数据接接收、实时数据传输、实时监控、信号处理多种功能,要求具有高系统可靠性和高集成度,实时分析与处理能力,数据传输精确性。 The pathology of monitoring system using networking technology according to claim 1, wherein: programming the gateway functions required to complete the overall and basic performance indicators: complete real-time data access gateway receives real-time data transmission, real-time monitoring , the signal processing functions required to have high reliability and highly integrated, real-time analysis and processing capabilities, data transfer accuracy.
4.根据权利要求1所述的用物联网技术的病理数据监测系统,其特征在于:确定网关的输入输出:网关将从无线传感器网络内传感节点传送过来的数据作为输入,并通过以太网、无线局域网输出数据。 The object with the pathology of monitoring system according to claim 1 networking technology, wherein: the gateway determining input and output: from the gateway, the sensor nodes within a wireless sensor network over the data as input, and Ethernet wireless LAN output data.
5.根据权利要求1所述的用物联网技术的病理数据监测系统,其特征在于:进行网关的基本构架设计:网关基本构架由四个层面组成,自下而上分别是:功能部件层、设备驱动层、嵌入式系统内核、应用系统层。 The pathology of monitoring system using networking technology according to claim 1, characterized in that: a gateway basic architecture design: gateway basic framework composed of four levels, from bottom to top are: a function layer, device driver layer, an embedded system kernel, application layer.
6.根据权利要求1所述的用物联网技术的病理数据监测系统,其特征在于:所述无线连接为至少如下之一:通过ZigBee技术无线连接、WIFI技术无线连接、蓝牙技术无线连接、手机无线连接和宽带有线连接。 The pathology of monitoring system using networking technology according to claim 1, characterized in that: the wireless connection is at least one of: a wireless connection through ZigBee technology, WIFI wireless connectivity technology, Bluetooth wireless connectivity, the phone broadband wireless connections and wired connections.
7.根据权利要求1所述的用物联网技术的病理数据监测系统,其特征在于:所述接收分析模块包括接收转发组件、后台数据库和显示终端;接收转发组件连接后台数据库,后台数据库连接显示终端和用户模块。 The pathology of monitoring system using networking technology according to claim 1, wherein: said receiving comprises receiving forward component analysis module, and the background display terminal database; back-end database to receive the forwarded connection assembly, connecting the display background database terminal and the user module.
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