CN102871647A - Mobile medical physiological detection system with region positioning function - Google Patents

Mobile medical physiological detection system with region positioning function Download PDF

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Publication number
CN102871647A
CN102871647A CN 201210362146 CN201210362146A CN102871647A CN 102871647 A CN102871647 A CN 102871647A CN 201210362146 CN201210362146 CN 201210362146 CN 201210362146 A CN201210362146 A CN 201210362146A CN 102871647 A CN102871647 A CN 102871647A
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physiological
zigbee
positioning
node
acquisition
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CN 201210362146
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Chinese (zh)
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余松森
曾华新
施伟周
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东信和平科技股份有限公司
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Abstract

The invention discloses a mobile medical physiological detection system, which comprises a physiological acquisition node, a plurality of zigbee positioning nodes, a network server, a mobile phone and a zigbee-sim card arranged in the mobile phone. The physiological acquisition node is arranged in human body and used for acquiring physiological parameters of the human body; a plurality of zigbee positioning nodes form a zigbee wireless network and used for acquiring the physiological parameters acquired by the physiological acquisition node and calculating the actual distances between the zigbee positioning nodes and the physiological acquisition node and angle information; the network server is used for receiving the physiological parameters sent by the zigbee positioning nodes, the actual distances between the zigbee positioning nodes and the physiological acquisition node and the angle information and calculating the position of the physiological acquisition node according to the actual distances and the angle information; and the zigbee-sim card arranged in the mobile phone is used for communicating with the network server through the zigbee positioning nodes to acquire the physiological parameters in the network server and the position of the physiological acquisition node. Therefore, the system reduces the operating cost, improves the positioning precision, and is convenient for a user to use.

Description

一种具有区域定位功能的移动医疗生理检测系统 Mobile medical physiological detection system having a positioning function area

技术领域 FIELD

[0001] 本发明涉及通信技术领域,更具体的说,涉及具有区域定位功能的移动医疗生理检测系统。 [0001] The present invention relates to communication technologies, and more particularly, relates to a detection system having a mobile medical targeting physiological function.

背景技术 Background technique

[0002] 移动医疗是远程医疗领域内的一个研究热点。 [0002] Mobile Healthcare is a hot topic in the field of telemedicine. 近年来,已有基于GPRS、3G等技术研制的便携式多参数移动监护系统,可实时检测人体的心电信号、心率、血氧饱和度、无创血压、呼吸频率和体温等重要参数,实现对各参数的监督报警、信息存储和传输。 In recent years, there have been based on GPRS, 3G and other technologies developed by mobile portable multi-parameter monitoring systems, real-time detection of human ECG, heart rate, oxygen saturation, noninvasive blood pressure, respiratory rate and body temperature important parameters, to achieve each supervision alarm parameters, information storage and transmission.

[0003] 现有的移动监护系统的特点在于利用GPRS或3G网络,用户有通信开销,所以存在较高的运营费用;另外,其定位精度低,容易受建筑物的阻挡,不适合小范围室内定位。 [0003] characteristics of the conventional mobile monitoring system is to use the GPRS or 3G network, users with a communication cost, so there is a higher operating costs; Further, low positioning accuracy, the building block susceptible, is not suitable for small-scale indoor positioning. [0004] 因此,如何降低运营费用,提高定位精度,成为目前最需要解决的问题。 [0004] Therefore, how to reduce operating costs, improve positioning accuracy, a problem most need to be addressed.

发明内容 SUMMARY

[0005] 有鉴于此,本发明的设计目的在于,提供一种具有区域定位功能的移动医疗生理检测系统,以降低运营费用,提高定位精度,使用方便。 [0005] In view of this, the present invention is designed to provide a mobile medical physiological detection system having a positioning function area, to reduce operating costs, improve positioning accuracy, easy to use.

[0006] 本发明实施例是这样实现的: [0006] Example embodiments of the present invention is implemented as follows:

[0007] 一种具有区域定位功能的移动医疗生理检测系统,包括生理采集节点、多个zigbee定位节点、网络服务器、手机和设置在所述手机上的zigbee-sim卡; [0007] A function having a mobile medical targeting physiological detection system comprising a physiological acquisition nodes, a plurality of positioning zigbee nodes, network servers, cell phones, and set-SIM card in the zigbee said mobile phone;

[0008] 所述生理采集节点,设置在人体上,用于采集人体的生理参数; [0008] The physiological acquisition nodes, disposed on the body, for collecting physiological parameters;

[0009] 所述多个zigbee定位节点构成zigbee无线网络,用于获取所述生理采集节点采集到的生理参数,计算与所述生理采集节点的实际距离及角度信息; [0009] The positioning of the plurality of nodes constituting zigbee zigbee wireless network node for obtaining the collected physiological collected physiological parameter, the physiological calculating the actual distance and angle information acquisition node;

[0010] 所述网络服务器,用于接收所述zigbee定位节点发送的生理参数,以及所述zigbee定位节点与所述生理采集节点的实际距离及角度信息,并根据所述实际距离和角度信息计算所述生理采集节点的位置; [0010] The network server is configured to receive the physiological parameter zigbee transmitting location node, and the node positioned zigbee actual distance and angle information of the physiological acquisition node, and calculation according to the actual distance and angle information collecting the physiological position of the node;

[0011] 设置在所述手机上的zigbee-sim卡,用于通过所述zigbee定位节点与所述网络服务器进行通信,以获取所述网络服务器上的生理参数和所述生理采集节点的位置。 [0011] disposed on the phone's SIM-card zigbee, for communication through the network node and the zigbee positioning server to obtain a physiological parameter on the network server node and collecting the physiological position.

[0012] 优选地,所述生理采集节点包括处理器和分别与所述处理器相连接的检测装置、存储器、显示器和zigbee天线。 [0012] Preferably, the physiological acquisition node comprises a processor and a detecting means are respectively connected to the processor, memory, display and zigbee antenna.

[0013] 优选地,所述设置在所述手机上的zigbee-sim卡包括依次相连接的Zigbee射频接口芯片、安全支付芯片和SM卡芯片。 [0013] Preferably, the setting on the phone card comprising zigbee-sim Zigbee RF interface chip are sequentially connected, and SM secure payment chip card chip.

[0014] 与现有技术相比,本实施例提供的技术方案具有以下优点和特点: [0014] Compared with the prior art, the present embodiment provides a technical solution has the following advantages and features:

[0015] 在本发明提供的方案中,通过多个zigbee定位节点构成zigbee无线网络,以获取生理采集节点采集到的生理参数,再将生理参数、实际距离和角度信息发送给网络服务器,网络服务器对生理参数进行备份,并根据实际距离和角度信息计算出生理采集节点的位置,以便于用户通过设置在手机上的zigbee-sim卡来获取生理参数和生理采集节点的位置。 [0015] In the embodiment of the present invention, provided, formed by a plurality of nodes positioned zigbee zigbee wireless network to collect node in physical collected physiological parameter, then the physiological parameter, the actual distance and angle information is sent to the web server, the web server backup of physiological parameters, and calculates the position of the actual physiological acquisition node distance and angle information, so as to acquire location user physiological parameter and a physiological acquisition node by setting zigbee-sim card on the phone. 由于采用zigbee无线网络,所以不容易受建筑物阻挡,即使在小范围的室内,其定位的效果也很好,所以相对于现有技术本发明提高了定位精度,而且不需要额外支付通信费用;另外,zigbee-sim卡可以通过手机作为载体,无需借助额外的设备即可随时进行查询生理参数和位置,从而方便用户使用。 Due zigbee wireless network, it is not easily blocked by the building, even in small-scale indoor positioned effect is very good, so the prior art with respect to the present invention improves the positioning precision, and no extra communication fee payment; in addition, zigbee-sim card mobile phone as a carrier, physiological parameters and can be queried at any position without the aid of additional equipment, so user-friendly. 因此,本发明不仅降低了运营费用和提高了定位精度,而且,用户使用方便快捷。 Accordingly, the present invention not only reduces operating costs and improves the positioning accuracy, and that the user easily and quickly.

附图说明 BRIEF DESCRIPTION

[0016] 为了更清楚地说明本发明或现有技术中的技术方案,下面将对实施例或现有技术描述中所需要使用的附图作简单地介绍,显而易见地,下面描述中的附图仅仅是本发明的一些实施例,对于本领域普通技术人员来讲,在不付出创造性劳动的前提下,还可以根据这些附图获得其他的附图。 [0016] In order to more clearly illustrate the present invention or the technical solution in the prior art, accompanying drawings for describing the embodiments or the prior art described in the introduction required simply Apparently, the following description of the drawings only some embodiments of the present invention, those of ordinary skill in the art is concerned, without creative efforts, can derive from these drawings other drawings.

[0017] 图I为本发明所提供的一种具有区域定位功能的移动医疗生理检测系统的示意图; [0017] Medical Physiology diagram of a mobile system having a detection region I in FIG positioning function provided by the present invention;

[0018]图2为本发明所提供的生理采集节点的结构示意图; Schematic structural diagram of [0018] FIG. 2 Physiological acquisition node of the present invention is provided;

[0019] 图3为本发明所提供的zigbee-sim卡的结构示意图。 [0019] Fig 3 a schematic view of the structure zigbee-sim card provided by the present invention.

具体实施方式 detailed description

[0020] 下面将结合本发明实施例中的附图,对本发明实施例中的技术方案进行清楚、完整地描述,显然,所描述的实施例仅仅是本发明一部分实施例,而不是全部的实施例。 [0020] below in conjunction with the present invention in the accompanying drawings, technical solutions of embodiments of the present invention are clearly and completely described, obviously, the described embodiments are merely part of embodiments of the present invention, but not all embodiments example. 基于本发明中的实施例,本领域普通技术人员在没有做出创造性劳动前提下所获得的所有其他实施例,都属于本发明保护的范围。 Based on the embodiments of the present invention, all other embodiments of ordinary skill in the art without any creative effort shall fall within the scope of the present invention.

[0021] 本发明实施例提供了一种具有区域定位功能的移动医疗生理检测系统,包括生理采集节点、多个zigbee定位节点、网络服务器、手机和设置在所述手机上的zigbee-sim卡;所述生理采集节点,设置在人体上,用于采集人体的生理参数;所述多个zigbee定位节点构成zigbee无线网络,用于获取所述生理采集节点采集到的生理参数,计算与所述生理采集节点的实际距离及角度信息;所述网络服务器,用于接收所述zigbee定位节点发送的生理参数,以及所述zigbee定位节点与所述生理采集节点的实际距离及角度信息,并根据所述实际距离和角度信息计算所述生理采集节点的位置;设置在所述手机上的zigbee-sim卡,用于通过所述zigbee定位节点与所述网络服务器进行通信,以获取所述网络服务器上的生理参数和所述生理采集节点的位置。 [0021] Example embodiments of the present invention provides a mobile medical physiological detection system having a targeting function, comprising a physiological acquisition nodes, a plurality of positioning zigbee nodes, network servers, cell phones, and set-SIM card in the zigbee the phone; the physiological acquisition nodes, disposed on the body, for collecting physiological parameters; zigbee locating the plurality of wireless nodes constituting zigbee network node for obtaining the collected physiological collected physiological parameter, the physiological calculating the actual distance and angle information acquisition node; the web server, for receiving the transmitted positioning node zigbee physiological parameter, and said positioning node zigbee actual distance and angle information of the physiological acquisition node, and according to the the actual distance and angle information calculation collecting the physiological position of the node; zigbee-sim card provided on the mobile phone for communicating via the zigbee positioning node and the network server, the network server to obtain the physiological parameter and the position of the physiological acquisition node.

[0022] 由于上述移动医疗生理检测系统的具体实现存在多种方式,下面通过具体实施例进行详细说明: [0022] Since there are multiple ways to achieve the above-described specific mobile medical physiological detection system, described in detail by the following specific examples:

[0023] 请参见图I所示,图I所示的为一种具有区域定位功能的移动医疗生理检测系统,包括生理采集节点I、多个Zigbee定位节点2、网络服务器3、手机4和设置在所述手机4上的zigbee-sim卡5 ;所述生理采集节点1,设置在人体上,用于采集人体的生理参数;所述多个zigbee定位节点2构成zigbee无线网络,用于获取所述生理采集节点I采集到的生理参数,计算与所述生理采集节点I的实际距离及角度信息;所述网络服务器3,用于接收所述zigbee定位节点2发送的生理参数,以及所述zigbee定位节点2与所述生理采集节点I的实际距离及角度信息,并根据所述实际距离和角度信息计算所述生理采集节点I的位置;设置在所述手机4上的zigbee-sim卡5,用于通过所述zigbee定位节点2与所述网络服务器3进行通信,以获取所述网络服务器3上的生理参数和所述生理采集节点I的位置。 [0023] Referring to FIG I, a region having a positioning function as a mobile medical physiological detection system shown in Figure I, including physiological acquisition node I, a plurality of positioning Zigbee nodes 2, the network server 3, and 4 set the phone zigbee-sim card 5 on the phone 4; the physiological acquisition node 1, is provided on a human body, for collecting physiological parameters; positioning the plurality of nodes 2 constituting the zigbee zigbee wireless network, for acquiring the said physiological acquisition node I collected physiological parameter, the physiological acquisition node calculates the actual distance and angle I information; the network server 3, 2 for receiving the physiological parameters transmitted zigbee positioning node, and a zigbee positioning node 2 with the node physiological acquisition actual distance and angle information I, according to the actual distance and angle information and calculates the position I physiological acquisition node; disposed in said handset 5 zigbee-sim card on the 4, 3 is used by the zigbee communication with the network node 2 positioning server to obtain the position of the physiological parameter on the network server 3 and the physiological acquisition node I.

[0024] 在图I所示的实施例中,通过多个zigbee定位节点2构成zigbee无线网络,以获取生理采集节点I采集到的生理参数,再将生理参数、实际距离和角度信息发送给网络服务器3,网络服务器3对生理参数进行备份,并根据实际距离和角度信息计算出生理采集节点I的位置,以便于用户通过设置在手机4上的zigbee-sim卡5来获取生理参数和生理采集节点I的位置。 [0024] In the embodiment shown in FIG. I, by locating the plurality of nodes 2 constituting the zigbee zigbee wireless network to collect node I in physical collected physiological parameter, then the physiological parameter, the actual distance and angle information is sent to the network server 3, the web server 3 on physiological parameters backup, and calculates the I position physiological acquisition node based on the actual distance and angle information for the user to obtain physiological parameter and physiological acquisition by setting zigbee-sim card 5 on the phone 4 node I position. 由于采用zigbee无线网络,所以不容易受建筑物阻挡,即使在小范围的室内,其定位的效果也很好,所以相对于现有技术本发明提高了定位精度,而且不需要额外支付通信费用;另外,zigbee-sim卡5可以通过手机4作为载体,无需借助额外的设备即可随时进行查询生理参数和位置,从而方便用户使用。 Due zigbee wireless network, it is not easily blocked by the building, even in small-scale indoor positioned effect is very good, so the prior art with respect to the present invention improves the positioning precision, and no extra communication fee payment; Further, zigbee-sim card 5 can be a mobile phone as a carrier 4, a query can be performed at any location and physiological parameters without using additional equipment, so that user-friendly. 因此,本发明不仅降低了运营费用和提高了定位精度,而且,用户使用方便快捷。 Accordingly, the present invention not only reduces operating costs and improves the positioning accuracy, and that the user easily and quickly.

[0025] 请参见图I和2所示,图2所示的为生理采集节点I的具体结构,生理采集节点I包括处理器11和分别与所述处理器11相连接的检测装置、存储器13、显示器12和zigbee天线15,其中,检测装置通过接口14与处理器11相连接,检测装置可以包括体温检测器16、血糖检测器17、血压检测器18、血样检测器19、脉搏检测器110和心电检测器111等检测器,当然,还可以包括其他的检测器,在此不再赘述。 [0025] Referring to FIG concrete structures I and shown as a physiological acquisition node shown in FIG. 2 2 I of a physiological acquisition node I respectively includes a processor 11 and a detecting means connected to the processor 11, memory 13 , zigbee antenna 15 and the display 12, wherein the detecting means is connected to the processor 11 through the interface 14, the detection means may include a temperature detector 16, glucose detector 17, a blood pressure detector 18, a blood sample detector 19, a pulse detector 110 ECG detector 111 and a detector such as, of course, may also include other detectors, are not repeated here.

[0026] 请参见图I和3所示,图3所示的为zigbee-sim卡5结构示意图,所述zigbee-sim卡5设置在所述手机4上,且zigbee-sim卡5包括依次相连接的zigbee射频接口芯片51、安全支付芯片52和sim卡芯片53。 [0026] Referring to FIG. I and 2, a schematic structural diagram of 5 zigbee-sim card, the card 5 disposed zigbee-sim 3 shown in FIG. 3 on the handset 4 and 5 comprises a zigbee-sim card sequentially with zigbee interface chip 51 is connected to a radio frequency, and the security chip 52 sim card payment chip 53. 其中,zigbee-sim卡5的外观同普通的电信卡完全相同,接口标准符合7816的标准zigbee-sim卡5是一个高集成度卡片系统,通过不同形式封装而成。 Wherein, zigbee-sim card 5 with the appearance of conventional telecommunications card are identical, standard interface standard zigbee-sim card 57816 is a highly integrated card system, packaging them in different forms. 它一方面完整保留了传统SM卡的所有业务功能,另外还可以通过Zigbee协议和区域内的zigbee定位节点2进行交互。 On the one hand intact all the traditional business functions SM cards, you can also interact through Zigbee protocol and zigbee locating nodes within a zone 2.

[0027] 在图I所示的实施例中,系统以多个zigbee定位节点2构成zigbee无线网络。 [0027] In the embodiment shown in FIG. I, the positioning system to a plurality of nodes 2 constituting the zigbee zigbee wireless network. 该zigbee无线网络以三边定位算法为基础,通过测量zigbee定位节点2间的距离或角度信息,使用三边测量、三角测量或最大似然估计定位法计算生理采集节点I的位置,该方式在一定的通讯距离之内,实现了在扩大定位范围的同时提高定位精度。 The zigbee wireless networks trilateral positioning algorithm, distance or angle information by measuring two zigbee positioning node, using trilateration or triangulation calculation of maximum physiological positions I acquisition nodes positioned likelihood estimation method, the manner in within a certain distance communication, positioning achieved while expanding the scope to improve positioning accuracy. 其最佳定位控制精度可达到O. 5m。 The optimum positioning control accuracy can be achieved O. 5m.

[0028] 结合图I下面简要介绍本发明提供的移动医疗生理检测系统的使用流程: [0028] FIG I described briefly below in conjunction with the use of physiological processes mobile medical detecting system according to the present invention provides:

[0029] 第一步、受控对象佩戴生理采集节点I,其根据需要可以有选择性地将各检测装置接入生理采集节点I中。 [0029] The first step, the controlled object wearing physiological acquisition node I, which can selectively access each of the detecting means a physiological acquisition node I needed.

[0030] 第二步、生理采集节点I将生理参数测量值发送到周围的zigbee定位节点2,也可以根据接收到的zigbee定位节点2的命令有选择性的发送。 [0030] The second step, a physiological acquisition node I transmits the measured values ​​to the physiological parameter zigbee around the positioning node 2, may be selectively transmitted in accordance with a command received by the positioning node zigbee 2.

[0031] 第三步、zigbee定位节点2将接收到生理采集节点I的生理参数值向网络服务器3端转发。 [0031] The third step, zigbee positioning node 2 received physiological parameter value of the physiological acquisition node I forwards the network server 3 ends.

[0032] 第四步、网络服务器3端可以汇集存储各受控对象生理参数值,建立相应历史记录,并给出相应的健康预警信息;另外,根据不同zigbee定位节点2反馈的生理采集节点I的距离或角度信息值,利用一定的定位算法,可以判断生理采集节点I所在的位置; [0032] The fourth step, the web server 3 side can be pooled store physiological parameter values ​​of the respective controlled objects, to establish the corresponding history, and the corresponding health warning information; Further, according to the second feedback node different physiological acquisition zigbee positioning node I the distance or angle information value, the use of certain location algorithm can determine the position where the physiological acquisition node I;

[0033] 第五步、监测人员利用手机4,通过Zigbee-SM卡5可以向远程的网络服务器3端发请求。 [0033] The fifth step, monitors the use of the mobile phone 4 can send a request to the remote end of the network server 3 via Zigbee-SM card 5. 网络服务器3端可以实时反馈其欲了解的受控对象位置以及各生理参数值。 The web server 3 side, which monitors its For controlled object and the position of each of the physiological parameters. [0034] 综上所述,系统可以实现对受控对象的区域定位以及生理参数检测功能;而且,系统采集节点的生理参数检测功能齐全,并且可以灵活配置;另外,监测人员手机只要更换一张Zigbee-SIM卡,就可以随时了解受控对象的位置及生理参数值等信息,使用起来特别方便。 [0034] In summary, the system can achieve targeting of the controlled object and the detection of physiological parameters; Furthermore, complete physiological parameter acquisition node detection system, and can be flexibly configured; Further, as long as the replacement of a mobile phone monitors Zigbee-SIM card, you can keep abreast of the location information and physiological parameters and other controlled objects, particularly convenient to use.

[0035] 需要说明的是,图I至图3所示的实施例只是本发明所介绍的优选实施例,本领域技术人员在此基础上,完全可以设计出更多的实施例,因此不在此处赘述。 [0035] Incidentally, FIGS. I to 3 embodiments are merely preferred embodiments of the present invention is described, those skilled in the art based on this, can design more embodiments, therefore not at repeat. [0036] 对这些实施例的多种修改对本领域的专业技术人员来说将是显而易见的,本文中所定义的一般原理可以在不脱离本发明的精神或范围的情况下,在其它实施例中实现。 [0036] Various modifications to these embodiments of the present professional skilled in the art will be apparent, and the generic principles defined herein may be made without departing from the spirit or scope of the present invention, in other embodiments achieve. 因此,本发明将不会被限制于本文所示的这些实施例,而是要符合与本文所公开的原理和新颖特点相一致的最宽的范围。 Accordingly, the present invention will not be limited to the embodiments shown herein but is to be accorded herein consistent with the principles and novel features disclosed widest scope.

Claims (3)

  1. 1. 一种具有区域定位功能的移动医疗生理检测系统,其特征在于,包括生理采集节点、多个zigbee定位节点、网络服务器、手机和设置在所述手机上的zigbee-sim卡; 所述生理采集节点,设置在人体上,用于采集人体的生理参数; 所述多个zigbee定位节点构成zigbee无线网络,用于获取所述生理采集节点采集到的生理参数,计算与所述生理采集节点的实际距离及角度信息; 所述网络服务器,用于接收所述zigbee定位节点发送的生理参数,以及所述zigbee定位节点与所述生理采集节点的实际距离及角度信息,并根据所述实际距离和角度信息计算所述生理采集节点的位置; 设置在所述手机上的zigbee-sim卡,用于通过所述zigbee定位节点与所述网络服务器进行通信,以获取所述网络服务器上的生理参数和所述生理采集节点的位置。 A mobile medical system having a detection zone positioned physiological function, characterized by comprising a physiological acquisition nodes, a plurality of positioning zigbee nodes, network servers, cell phones, and set-SIM card in the zigbee the phone; the physiological acquisition nodes, disposed on the body, for collecting physiological parameters; zigbee locating the plurality of wireless nodes constituting zigbee network node for obtaining the collected physiological collected physiological parameter, calculates the physiological acquisition node the actual distance and angle information; the network server, configured to receive the physiological parameter transmitted zigbee positioning node, and the actual distance and angle information of the node and the positioning zigbee physiological acquisition node, and based on the actual distance and calculating the position angle of the physiological information acquired node; zigbee-sim card provided on the mobile phone for communicating via the zigbee positioning node and the network server, in order to obtain a physiological parameter on the network server and collecting the physiological position of the node.
  2. 2.根据权利要求I所述的具有区域定位功能的移动医疗生理检测系统,其特征在于,所述生理采集节点包括处理器和分别与所述处理器相连接的检测装置、存储器、显示器和zigbee 天线。 The detection system having a mobile medical targeting physiological functions according to claim I, wherein said physiological acquisition node comprises a processor and a detecting means are respectively connected to the processor, memory, display and zigbee antenna.
  3. 3.根据权利要求I所述的具有区域定位功能的移动医疗生理检测系统,其特征在于,所述设置在所述手机上的zigbee-sim卡包括依次相连接的Zigbee射频接口芯片、安全支付芯片和SM卡芯片。 The detection system having a mobile medical targeting physiological functions according to claim I, wherein said card is provided zigbee-sim on the phone Zigbee RF interface chip comprises successively connected, secure payment chip and SM card chip.
CN 201210362146 2012-09-25 2012-09-25 Mobile medical physiological detection system with region positioning function CN102871647A (en)

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