CN100471444C - Portable wireless device for monitoring physiological signals - Google Patents

Portable wireless device for monitoring physiological signals Download PDF

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CN100471444C
CN100471444C CN 200610006889 CN200610006889A CN100471444C CN 100471444 C CN100471444 C CN 100471444C CN 200610006889 CN200610006889 CN 200610006889 CN 200610006889 A CN200610006889 A CN 200610006889A CN 100471444 C CN100471444 C CN 100471444C
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physiological signal
wireless
signal
physiological
user
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CN101006914A (en
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周常安
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周常安
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Abstract

本发明提供一种可携式无线生理信号监测装置,其包括:感测元件,用以感测生理信号;本体;以及依附媒介,用于让使用者随身操作该可携式无线生理信号监测装置。 The present invention provides a portable wireless physiological signal monitoring device, comprising: a sensing element for sensing a physiological signal; body; and attachment medium, for letting a user of the portable wireless physiological signal monitoring operation of portable device . 其中该本体包括:连接接口,用以连接该感测元件;无线传输接口,用于接收至少一另一无线生理信号监测装置所发射的数字生理信号,并与该至少一另一无线生理信号监测装置间进行信息交换,以及用于进行该可携式无线生理信号监测装置与使用者身体外的外部装置的信息交换;电源;以及电路系统。 Wherein the body comprises: a connection interface for connecting the sensing element; a wireless transmission interface for receiving at least a further digital wireless physiological signal monitoring physiological signals emitted by the device, and monitoring with the at least one other wireless physiological signal exchange information between devices, and means for exchanging information of the external apparatus outside the portable wireless physiological signal monitoring device and the user's body; power supply; and circuitry. 本发明的优点在于提供轻巧的可携式生理监测装置,通过无线传输接口而与外部装置进行无线连接,可以轻易地达到远程医疗监控的目的。 Advantage of the present invention to provide a lightweight portable physiological monitoring device, and the wireless connection with an external device via a wireless transmission interface, can easily achieve the object of remote medical monitoring.

Description

可携式无线生理信号监测装置 The portable wireless physiological signal monitoring device

技术领域 FIELD

本发明涉及一种可携式无线生理信号监测装置,特别地是,涉及可以同时整合包括本身测得以及接收自外界的生理信号的两种以上生理信号、并进行生理信号的双向接收及传输的装置。 The present invention relates to a portable wireless physiological signal monitoring apparatus, particularly, relates to the bidirectional transmission and reception may include integration of itself and the two or more measured physiological signals received from the outside of the physiological signal at the same time, and the physiological signal device. 背景技术 Background technique

现代人对于身体健康的关注越来越重视,应运而生的就是生理监测装置的盛行,不过,如医院所使用的生理监测装置却在体积以及价格上让使用者却步,所以,为了让使用普及化,也就是说,为了降低使用的门槛,即出现了许多可在家使用的、小型的、较为便宜的生理监测装置,例如,心电测量装置就有相关的小型装置出现,不过,即使是如此,市面上的生理监测装置还是相当的不方便,举例而言,其可能还是需要一台略微庞大的主机,并且需要连接相当多的连接线,这使得使用者在使得时,除了必须在身上连接许多电线之外,行动还会受到该主机的限制。 Modern health concern for more and more attention, came into being is the prevalence of physiological monitoring devices, however, such as physiological monitoring devices used in hospitals, but allows users to step back on the volume and price, so, in order to allow the use of universal of, that is to say, in order to lower the threshold to use, that there have been many, small, relatively inexpensive physiological monitoring device can be used at home, for example, small devices ECG measuring device, there appear related, but, even so , physiological monitoring device market is quite inconvenient, for example, or it may require a slightly large host, and requires a considerable number of connection lines connected, which makes the user when such, in addition to the body must be connected many outside the wire, action will be limited by the host.

在这样的需求之下,可携的生理监测装置成为当前热门的趋势。 Under such a demand, portable physiological monitoring device becomes the current hot trend. 只是市面上所出现的产品,不是会让可携成为负重,就是真的做到相当的小巧却功能过于简单,因此,在实用性上仍然有待加强。 The market is just emerging product, not make portability become load is quite small but really did too simple, therefore, on the practical remains to be strengthened.

此外,由于人们对身体健康的意识提高,单一种生理监测已不足以满足消费者的需求,再加上事实上许多生理监测数值的判读是需要配合其它的生理信号才能完整,因此消费者、医护人员等对于生理监测装置的需求已到达另一个层次。 In addition, as people raise awareness on health, single a physiological monitoring has been insufficient to meet consumer demand, coupled with the fact that many of the numerical interpretation of physiological monitoring is required with other physiological signals to complete, consumers, health care personnel needs for physiological monitoring device has reached another level. 发明内容 SUMMARY

本发明的目的在于提供一种轻巧的可携式生理监测装置,其可以利用依附媒介而轻易地依附于使用者身上,且不会增加使用者的负担。 Object of the present invention to provide a lightweight portable physiological monitoring device, which can be attached using an intermediary user's body and easily attached, without increasing the burden on the user.

本发明的另一目的在于提供一种无线的可携式生理监测装置,其除了本身所测得的生理信号之外,还可以无线地接收身上其它生理监测装置所测得的生理信号,以进行不同生理信号之间的整合,并因此简化多重生理监测的 Another object of the present invention is to provide a wireless portable physiological monitoring device, which in addition to the measured physiological signal itself, and can also wirelessly receive the body other physiological signals measured physiological monitoring device, and for integration between different physiological signals, and thus simplify the monitoring of multiple physiological

设置、消除复杂连接线、以及在使用两种以上生理监测装置时节省部分体积。 Provided, eliminating complicated cable, as well as savings in the use of two or more of the physiological monitoring device section volume. 本发明的又一目的在于提供一种无线的可携式生理监测装置,其可以通过无线传输接口而与外部装置进行无线连接,并且,再通过该外部装置连接网络,即可以轻易地达到远程医疗监控的目的。 A further object of the present invention is to provide a wireless portable physiological monitoring device, which may be performed by wireless transmission interface with an external device having wireless connection, and then through the external device connected to the network, i.e., can easily reach telemedicine monitoring purposes.

本发明提供一种可携式无线生理信号监测装置,其包括:感测元件,用以自一使用者感测生理信号;本体;以及依附媒介,用于让使用者随身操作该可携式无线生理信号监测装置。 The present invention provides a portable wireless physiological signal monitoring device, comprising: a sensing element for sensing a user from a physiological signal; body; and attachment medium, allowing users to operate the portable wireless portable physiological signal monitoring device. 其中该本体包括:连接接口,用以连接该感测元件;无线传输接口,用于接收设置于使用者身上的至少一另一无线生 Wherein the body comprises: a connection interface for connecting the sensing element; a wireless transmission interface is provided for receiving at least one other wireless green body of the user

理信号监测装置所发射的数字生理信号,并与该至少一另一无线生理信号监测装置间进行信息交换,以及用于进行该可携式无线生理信号监测装置与使 Digital signal processing physiological signals emitted by the monitoring device, and information exchange between the at least one other wireless physiological signal monitoring means, and means for monitoring a physiological signal of the portable radio device so that

用者身体外的外部装置的信息交换;电源,以提供整体操作所需的电力;以及电路系统,用以接收所感测的生理信号,以及对该所感测的生理信号进行处理。 Exchange of information with an external device's body outside; power, to provide an overall power required for operation; and a circuit system configured to receive the sensed physiological signal and the physiological signal sensed be processed. 其中在该可携式无线生理信号监测装置之中,该感测元件所感测的生理信号以及经由该无线传输接口而接收自该至少另一无线生理信号监测装置的数字生理信号会进行同步整合,之后再传送至该外部装置。 Wherein in the portable wireless physiological signal monitoring device, the sensing element and the sensing physiological signal sensed via the radio transmission interface received from the digital signal will be the physiological physiological signal monitoring at least another wireless device to synchronize the integration, after longer be sent to the external device.

根据上述可携式无线生理信号监测装置,该依附媒介的实施形式至少有三种模式,其一,当该可携式无线生理信号监测装置加以实施为手持式装置时,该依附媒介就可实施为该本体上令该使用者握持的部分,其二,当该可携式无线生理信号监测装置加以实施为环绕式装置时,该依附媒介就可实施为可环绕使用者的带体,而该带体则是可以实施为环绕使用者的四肢、躯体、 或头部,且该带体用以接触使用者的表面,可以设置该感测元件,当该可携式无线生理信号监测装置加以实施为吊挂式装置时,该依附媒介就可实施为吊挂带。 According to the portable wireless physiological signal monitoring device, the attachment embodiment of media has at least three modes, first, when the portable wireless physiological signal monitoring device implemented as a handheld device, which can be implemented as a media attachment enabling the user gripping the body portion, and the second, when the portable wireless physiological signal monitoring apparatus to be implemented as a wrap-around means, attached to the surrounding medium can be implemented as a user's body belt, which strip may be embodied to surround the user's limbs, torso, or head, and the surface of the contact strip for the user, the sensing element may be provided, when the portable wireless physiological signal monitoring apparatus be implemented is hanging means, the attachment can be implemented as a hanging tape medium.

另外,根据本发明,该可携式无线生理信号监测装置以及该至少一另一无线生理信号监测装置两者都可用以检测下列信号的至少其中之一:心电信 Wherein at least one further, according to the present invention, and at least a further two of the wireless physiological signal monitoring device of the portable wireless physiological signal following the monitoring means for detecting the signal can be: heart Telecommunications

号、脑电信号、眼动信号、肌电信号、鼾声信号、呼吸信号、胸腹呼吸信号、 四肢移动感测信号、躯体移动感测信号、头部移动感测信号、以及血氧信号。 Number, EEG, eye movement signals, EMG, snoring signal, the respiratory signal, abdominal respiration signal, limb movement sensing signal, the body motion sensing signal, the sensing head movement signal, and a blood oxygen signal. 此外,该可携式无线生理信号监测装置除了上述之外,还可包括操作接口,以利于使用者的操作,并且该操作接口中也可包括按钮,以作为按压标 In addition, the portable wireless physiological signal monitoring device in addition to the above, further comprising a user interface to facilitate the user's operation, and the operation interface may also include a button to press as standard

记时间点之用;显示装置,以用以显示数据;以及有线传输接口,以用于对 Points in time of use; display means configured to display data; and a wired transmission interface, in order for

该外部装置传输所述经处理的感测生理信号以及所述接收的数字生理信号, 用以作为该无线生理信号监测装置与该至少一另一无线生理信号监测装置之间的传输接口,以及用以作为电源来源的传输接口。 The external device transmits the sensed physiological signal and the digital processing of the received physiological signal to a physiological signal as the radio transmission interface between the monitoring device and the at least one other wireless physiological signal monitoring device, and with as the transmission interface power sources.

另外,特别地是,该可携式无线生理信号监测装置还可以包括存储单元以进行储存,并且,所述经处理的感测生理信号以及所述接收的数字生理信号可以先储存在该存储单元之中,之后再利用该无线传输接口向外传输,或者二者择一地,先储存在该存储单元中的所述经处理的感测生理信号以及所 Further, particularly, the portable wireless physiological signal monitoring apparatus may further include a storage unit for storage, and the sensed physiological signal and the digital processing of the received physiological signal may be stored in the first storage unit during, and after re-use of the radio transmission interface outwardly transmission, or alternatively, a first stored in the storage means for sensing a physiological signal as well as the processed

述接收的数字生理信号也可以利用有线传输接口向外传输。 Said received digital physiological signal may be transmitted by wire transmission interface outwardly. 而除了上述的情形之外,该无线传输接口也是可以实时地进行所述经处理的感测生理信号以及所述接收的数字生理信号的对外传输,此外,该无线传输接口可以在该感测元件感测生理信号的同时接收来自该至少一另一无线生理信号监测装置所发射的数字生理信号。 And in addition to the above-described case, the radio transmission interface can also be processed in real time the sensed physiological signal and the physiological signal to the external digital transmission of the reception, in addition, the interface may be a wireless transmission of the sensing element sensing a physiological signal while receiving the digital signal from the at least one physiological another wireless physiological signal transmitted from the monitoring device.

而较佳地是,该无线传输接口为下列无线通信协议的其中之一:802.11x、 And preferably it is the wireless transmission interface is one of the following wireless communication protocols: 802.11x,

红外线、蓝牙、RF射频、PHS、 GSM、以及任何无线通信协议。 Infrared, Bluetooth, RF radio, PHS, GSM, and any wireless communication protocol.

根据本发明的较佳实施例,该电路系统至少包括脉冲单元,处理器,放 According to a preferred embodiment of the invention, the circuit system including at least pulse unit, a processor, put

大器,以及模拟/数字转换器,该处理至少包括放大以及模拟数字转换。 Amplifier, and an analog / digital converter, the process comprising at least amplification and analog to digital conversion.

根据本发明的较佳实施例,该外部装置可以对该可携式无线生理信号监 According to a preferred embodiment of the present invention, the external device may be a portable wireless monitor the physiological signals

测装置进行监控以及设定,以及该外部装置可以连接至网络。 Measuring means for monitoring and setting, and the external device may be connected to a network.

且较佳地是,该外部装置可为下列装置的其中之一:服务器、个人计算机、笔记本电脑、PDA、手机以及任何可以进行运算及/或储存及/或显示的装置。 And preferably that the external device may be one of the following devices: a server, a personal computer, a notebook computer, PDA, cell phone or any computing and / or storage and / or display device can be performed. 附图说明 BRIEF DESCRIPTION

图1显示根据本发明的无线生理信号监测装置的电路方框图; 1 shows a circuit block diagram of a wireless physiological signal monitoring device of the present invention;

图2显示根据本发明的手持式无线生理信号监测装置的第一较佳实施 Figure 2 shows a hand-held preferred embodiment of the present invention, a first wireless physiological signal monitoring device

例; example;

图3显示图2中的该手持式无线生理信号监测装置的实际实施情形; 图4显示根据本发明的手持式无线生理信号监测装置的第二较佳实施 The actual embodiment of the handheld wireless case physiological signal monitoring device in FIG. 2 FIG. 3 shows; FIG. 4 shows a hand-held second preferred embodiment of the present invention is a wireless physiological signal monitoring device

例; example;

图5A显示根据本发明的环绕式无线生理信号监测装置的第一较佳实施 5A shows a wraparound in accordance with a first preferred embodiment of the present invention, wireless physiological signal monitoring device

例; example;

图5B显示根据本发明的环绕式无线生理信号监测装置的第二较佳实施 5B shows a wraparound in accordance with a second preferred embodiment of the present invention is a wireless physiological signal monitoring device

例; example;

图6显示根据本发明的环绕式无线生理信号监测装置的第三较佳实施 6 shows a wraparound third preferred embodiment of the present invention, the wireless physiological signal monitoring device

图7显示根据本发明的环绕式无线生理信号监测装置的第四较佳实施例;以及 Figure 7 shows a fourth preferred embodiment of a wireless physiological signal monitoring apparatus according to the present invention, wrap-around; and

图8显示根据本发明的吊挂式无线生理信号监测装置的第一较佳实施例。 8 shows a preferred embodiment according to the first embodiment of the present invention is a radio hanging physiological signal monitoring device.

其中,附图标记说明如下: 100无线生理信号监测装置 Wherein reference numerals as follows: 100 wireless physiological signal monitoring device

103感测元件106显示装置 103 the display device 106 sensing elements

200手持式无线生理信号监301脑电测量装置40]手持式心电测量装置500手表式心电检测装置502手表式肌电测量装置600头带式脑电测量装置6011呼吸传感器700绑带式胸腹呼吸传感器701鼾声传感器 200 301 EEG monitoring handheld wireless physiological signal measuring apparatus 40] handheld ECG device 500 measuring the watch electrocardiographic measurement device 502 watches EMG EEG headband 600 measuring respiration sensor means 700 6011 chest strap formula abdominal respiration sensor 701 snoring sensor

101电路系统102连接接口104无线传输接口105存储单元107操作接口测装置201电极 Connecting interface circuitry 102 101 104 105 radio transmission interface storage unit 107 operator interface apparatus 201 sensing electrodes

302肌电测量装置 302 myoelectric measurement device

402血氧传感器 Oxygen Sensor 402

501无线血氧传感器 501 wireless oximeter sensor

503无线血氧传感器 503 wireless oximeter sensor

601多重生理信号监测装置 Multiple physiological signal monitoring device 601

6012鼾声传感器801电极 6012 snoring sensor electrode 801

7001胸带7002腹带 7001 chest strap cummerbund 7002

800颈挂式心电测量装置 800 hanging neck ECG measuring device

具体实施方式 Detailed ways

本发明将可由以下的实施例说明而得到充分了解,使得熟习本技术的人可以据以完成,然本以下的实施例并非限制本发明的实施型态。 The present invention will be described by the following examples but fully understood, one skilled in the art that one can accordingly complete, embodiments of the present however the following patterns not limiting embodiment of the present invention.

请参阅图1,其显示根据本发明的无线生理信号监测装置的电路方框图。 Please refer to FIG. 1, which shows a circuit block diagram of a wireless physiological signal monitoring device of the present invention. 如图所示,根据本发明的无线生理信号监测装置IOO包括电路系统101、连接接口102、感测元件103以及无线传输接口104,其中,该连接接口102 用以连接该感测元件103,在图1中所示为多个感测元件103,但并非绝对, 而该无线传输接口104则是用以进行对外的无线传输工作,此外,该用以检 As shown, the wireless physiological signal monitoring device of the present invention comprises IOO circuitry 101, connector interface 102, the sensing element 103 and a wireless transmission interface 104, wherein the connection interface 102 for connecting the sensing element 103, in as shown in FIG. 1 is a plurality of sensing elements 103, but not absolute, and the radio transmission interface 104 is for performing wireless transmission of external work, moreover, subject to the

测生理信号的感测元件103可以实施为传感器,例如,血氧传感器、或是电极,例如心电电极,因此,其进行一种生理信号的检测时所需的数量并非固定,举例而言,若是该感测元件103实施为血氧传感器时,其数量将仅会为1,若是该感测元件103实施为心电电极时,则其数量就可以是2、或是更多个,因此其数量依照实际实施而有所差异。 Sensing the physiological signal sensing device 103 may be implemented as a sensor, e.g., blood oxygen sensors, or electrodes, such as ECG electrodes, and therefore, the number required for detecting a physiological signal, which is not fixed, for example, if when the sensing element of the oxygen sensor 103 embodiment, it will only amount to 1, if the sensing element 103 is implemented as ECG electrodes, the number may be two, or more, so the number vary in accordance with the actual embodiment.

通过匕述的电路结构,根据本发明的无线生理信号监测装置监测使用者的生理信号的流程如下:首先,该感测元件103会被设置在使用者身上,举例而言,头上、手指上、胸膛上等,然后,通过该电路系统101,会进行生理信号的提取以及处理(包括滤波、放大、模拟数字转换等),接着,经处理的生理信号即可通过该无线传输接口104而对外传输至外部装置(未显示),在此特别地是,当上述的步骤在进行时,该无线传输接口104尚可以由外部接收其它的数字生理信号,也就是说,若是使用者身上除了此生理监测装置之外,还有其它生理监测装置同时在进行测量的话,则只要两者间的无线通信协议可以互通,根据本发明的无线生理信号监测装置就可以接收来自其它生理信号监测装置的数字生理信号,并也可利用该无线传输接口104 而向外传输。 Dagger-described circuit configuration, the process in accordance with the user physiological signal monitoring wireless physiological signal monitoring apparatus of the present invention is as follows: First, the sensing element 103 is disposed on the user, for example, the head, the finger , upper chest, and then, by the circuitry 101, will be extracted and the physiological signal processing (including filtering, amplification, analog-digital conversion, etc.), then, the physiological signal can be processed by the radio transmission interface 104 and the external transmitted to the external device (not shown), in particular here, when carrying out the above steps, the radio transmission interface 104 still may receive other digital signals by an external physiological, that is, if the user's body in addition to this physiological to monitoring means, there are other physiological monitoring device measurement is performed simultaneously, then as long as the wireless communication protocol between the two can communicate, you can receive a digital physiological signal from the physiological monitoring device other wireless physiological signal monitoring device according to the invention signal, and it may also use the radio transmission interface 104 are transmitted outwardly.

因此,如上所述,根据本发明的该无线生理信号监测装置不但可以处理木身所测得的生理信号,还可以无线接收来自使用者身上的其它生理监测装置所测得的生理信号,达到同步整合以及简化装置的目的。 Thus, as described above, according to the wireless physiological signal monitoring device of the present invention can handle not only physiological signals measured wood itself, may also be other wireless receiving physiological signals from the physiological monitoring device user's body is measured, to achieve synchronization consolidation and simplification of the destination device. 所以,根据本发明,在无线传输的层次上,本发明的该无线生理信号监测装置是主要生理信号监测装置,而其它则为次要生理信号监测装置,所以为了整合的目的,根据木发明的该无线生理信号监测装置可以通过与不同装置之间的无线传输而对其它的装置进行相关的设定以及监控,例如,开启/关闭、参数设定等。 Therefore, according to the present invention, at the level of wireless transmission, the wireless physiological signal monitoring device of the present invention is a primary physiological signal monitoring device, and compared with other secondary physiological signal monitoring device, so for the purposes of integration, in accordance with the invention the wood the wireless physiological signal monitoring device may be set and monitored by the associated radio transmission between the different devices and other devices, e.g., on / off, and other parameter settings.

此外,为了整合不同装置间的生理信号,根据本发明的该无线生理信号监测装置的该电路系统101中会包括脉冲单元,以对生理信号进行时间标记, 此外,该电路系统101还至少会包括处理器,放大器,以及模拟/数字转换器等,以对所提取的信号进行相关的处理,例如,进行放大、数字化等。 Further, in order to integrate physiological signal between different devices, based on the circuitry of the wireless physiological signal monitoring device 101 of the invention will include pulse unit to physiological signals to be time stamped, in addition, the circuitry 101 further will at least comprise processor, an amplifier, and an analog / digital converter, etc., to the extracted signal-related process, e.g., amplified, digitized and the like. 至于该无线生理信号监测装置接收自其它装置的生理信号,则是在传输前就已完成数字化等处理。 As the wireless physiological signal from the physiological monitoring device receives signals from other devices, it is the digitization process have been completed before transmission.

再者,如图1所示,该无线生理信号监测装置IOO还可以包括存储单元 Further, as shown in FIG. 1, the wireless physiological signal monitoring apparatus may further include a storage unit IOO

105,以用于储存所测得及/或所接收的信号,而通过此存储单元,该无线生理信号监测装置IOO将会更具弹性。 105, for storing the measured and / or received signal, through the memory cell, the wireless physiological signal monitoring device will be more flexible IOO. 举例而言,由于生理监测常常需要执行相当长的时间,例如, 一整晚,或者甚至是一直配戴于身上的情形,并且, 数据量也势必相当的大,所以虽然该无线传输接口104可以加以设定为将所测得以及所接收的信息实时地向外传输,但在考虑到电力的情形下,也可以将信息先储存在该存储单元之中,然后,再周期性地、或是依需要地向外传输,例如测量完成之后,或是一个完整的测量周期之后等,而在这种情形下, 该存储单元就是作为不进行无线通信时的信息储存之用,此外,另一种情形也可以是,该存储单元作为缓冲之用,也就是说,其可以是该无线传输接口进行传送前的缓冲,或者,若该无线传输接口暂时产生问题时提供缓冲之用等,例如突然无法连接时。 For example, often require the physiological monitoring since a long time, for example, a night, or even has been worn on the body of the case, and the amount of data it will also quite large, so although the radio transmission interface 104 can be the set to be measured and the received real-time information transmission outwardly, but taking into account the power situation, information may also be stored in the first storage unit, and then again periodically, or transmission requires outwardly by, for example, after after the measurement, a full measurement cycle or the like, and in this case, the memory cell is stored as information when the wireless communication is not performed, in addition, another case may be, the use as a buffer storage unit, that is, it may be buffered before sending the radio transmission interface, or, if only to provide a buffer of the wireless transmission interface is temporarily generated problems such as not abruptly connection. 另外,该存储单元也会用于储存使用者对此装置的设定等。 Further, the memory cell will be used to store user settings and the like of this device.

此外,该装置100也可包括显示装置106,其可以帮助使用者了解目前的测量情形、进行相关的设定、及/或开启/关闭测量等,所以有可能存在操作接口107,以提供使用者更便利的操作,另外,该操作接口107之中还可以包括按钮,以在需要时提供按压标记时间之用,例如使用者突然觉得不适吋。 In addition, the apparatus 100 may also include display device 106, which can help a user understand the current situation of the measurements, related settings, and / or turn on / off measurement, it is possible that the operation interface 107, to provide a user more convenient operation, further, the operation in the interface 107 may also include a button to provide a marker of the pressing time required when, for example, a user suddenly feel discomfort inch.

此外,特别地是,除了该无线传输接口之外,根据本发明的该无线生理信号监测装置也可以同时具有有线传输接口,以提供无线传输之外的另一种传输选择。 Further, in particular, in addition to the radio transmission interface, the wireless physiological signal monitoring device according to the invention may have a wired transmission interface simultaneously to provide another transmission alternative to radio transmission. 首先,有线传输接口可以在无线传输接口无法正常运作时作为替代之用,例如无法建立联机、发生延迟等时。 First, a wired transmission interface can act when the radio transmission interface is not working properly replace only and could not establish a connection, for example, when delay occurs. 因此,其不仅可以实施于与外部的装置进行连接,也可以实施于使用者身上不同生理信号监测装置间的连接。 Thus, not only may be implemented in connection to an external device, the connection may be implemented between the user's body different physiological signal monitoring apparatus. 此外,即使是在该无线传输接口正常运作的情形下,该有线传输接口也有其存在的必要。 Further, even in the case where the radio transmission interface of the normal operation, the wired transmission interface is also necessary to its existence. 举例而言,由于现今的无线传输技术所能传输的数据量明显比有线传输小许多,因此,当经过长时间生理监测后而需要传输大量储存在该存储单元之中的信息时,通过无线传输接口来达至lj将会花费较多的时问,所以,此时有线传输接口的设置就提供了使用者节省时间的另一种信息传输选择。 When for example, since the amount of wireless transmission of data can be transmitted technology today many apparently smaller than a wired transmission, therefore, when a long time is required after the physiological monitoring transmit large amounts of information in the memory cell to store, via the wireless transmission interface up to spend more time lj will ask, so, this time setting up a wired transmission interface provides another transmission information to select the user to save time. 并且,也可以通过有线传输接口来提供电源补充,例如,常见的USB接口就是可以提供电源的一种形式。 Further, the supplement may also be provided through a wired power transmission interface, e.g., the USB interface is a common form of power supply can be provided.

另外,根据本发明的该无线生理信号监测装置还会具有依阳媒介.通过 Further, according to the wireless physiological signal monitoring device of the present invention will have a male by medium by

阳着在使用者身上,进而达到可携的目的。 Yang with the user's body, thus achieving the purpose of portability. 至于该依附媒介的实施形式则是司—以依据不同的生理信号检测以及使用者不同的身体部位而有各式各样的变化,例如可以是带体以利于环绕,或者是一吊挂带以用于颈挂,或者是一 As to the form of embodiment of the medium is dependent Division - and in accordance with a variety of different physiological signals change and different body parts detected user, for example, may be a strip to facilitate surrounded by a hanging belt or a neck hanging, or a

接下来,即对根据本发明的无线生理信号监测装置的较佳实施例进行描述。 Next, according to the preferred embodiment that is a wireless physiological signal monitoring device of the present invention will be described.

不过,在描述之前,要特别提出的是,根据本发明的该无线生理信号监测装置本身所进行的生理测量,将可以不仅仅包含一种,而可以是多于一种的化理监测,也就是说,当其以多个连接接口连接多种感测元件时,就可以轻易地达到这样的情形,举例而言,其可以同时连接血氧传感器(耳夹式) 以及鼾声传感器,或是可以同时连接血氧传感器(手尖式)以及肌电感测电极。 However, before describing, to highlight that, according to the physiological measurements of the wireless physiological signal monitoring device of the present invention is performed by itself, it will not only comprise one, but may be more than one of the monitoring processing, and that is, when the plurality of sensing elements connected to a plurality of connection interfaces, it can easily achieve such a situation, for example, which can be connected simultaneously oxygen sensor (ear clip type) and snoring sensor, or can be while the oxygen sensor is connected (the hand formula) and muscle electrical sensing electrodes. 因此,只要电极/传感器的设置合理以及适合,仅通过一个装置来达到多种生理信号的检测也有可能,也就是说,本发明也可以加以实施为多重生理 Thus, as long as a reasonable set electrode / sensor, and adapted, by only one detecting means to achieve a variety of physiological signals is also possible, that is to say, the present invention may also be implemented as multiple physiological

监湖lj装直。 Lake supervisor lj loaded straight.

首先,根据本发明的该无线生理信号监测装置可以加以实施为手持式装 First, the wireless physiological signal monitoring device according to the invention may be embodied as a handheld apparatus

置,如图2所示,其实施为手持式心电监测装置200的情形。 Position, shown in Figure 2, which embodiment is a case where a handheld ECG monitoring device 200. 在该较佳实施例中,该感测元件为电极,包括尚未使用的电极201,以及被手握住的部分, 而该依附媒介则为该使用者手指所握持部分中的非电极部分,此外同样地, 该装置会包括无线传输接口以进行无线传输以及接收,举例而言,如图3所示,其除了本身进行心电测量之外,还可以无线接收来自脑电测量装置301 以及肌电测量装置302的生理信号,因而可以达到整合以及简化的目的。 In this preferred embodiment, the sensing element is an electrode comprising an electrode unused 201, and the hand portion is gripped, and the medium was attached to the non-electrode portion of the user's finger grip portion, also in the same manner, the apparatus may comprise a wireless transmission interface for the wireless transmission and reception, for example, shown in Figure 3, in addition to its own ECG measurement, it can also be received from a wireless EEG measuring apparatus 301 and muscle electrical physiological signal measuring apparatus 302, it is possible to achieve simplification and consolidation purposes.

另外,如上所示,根据本发明的无线生理信号监测装置本身所测量的生理信号也可以包含不只一种,举例而言,如图4所示,该装置本身即可以包括心电测量的部分401以及血氧测量的部分402,当然其实施的方式不限为图中所示的形式,而可以有不同的变化,例如该血氧传感器也可以利用外接的形式结合等。 Further, as indicated above, the physiological signal from the wireless signal in accordance with the physiological monitoring device according to the present invention, the measurement itself may also contain more than one, for example, as shown, the apparatus may itself comprise electrocardiograph section 401 in FIG. 4 oximetry portion 402 and, of course, the embodiment is not limited to the form of embodiment thereof illustrated in the drawings, but may have different variations, for example, the oxygen sensor may be utilized in conjunction with an external form like.

此外,根据本发明的又一较佳实施例,该无线生理信号监测装置也可以加以实施为环绕式装置。 Further, according to still another preferred embodiment of the present invention, the wireless physiological signal monitoring means may be embodied as a wrap-around device. 当实施为环绕式装置时,该依附媒介则加以实施为可以环绕使用者身体的带体,而所环绕的部分则可以是使用者的头部、躯体、 四肢等各个部位。 When implemented as a wrap-around means, which is implemented as a media attachment may surround the user's body with the body, and the surrounded portion may be various parts of a user's head, trunk, limbs and the like. 在实施为环绕式生理监测装置的情形下,其较大的可能性将会是该装置利用电极来进行生理参数的测量,这是因为环绕的带体可以使得装置直接接触使用者的身体皮肤,因此无论是在装置或是带体上,可以直接将电极设置在接触使用者皮肤的表面上以省掉另外外接电极的麻烦。 In the case of embodiments of a wrap-around physiological monitoring device, which will be the greater the likelihood that the device uses electrodes to measure physiological parameters, this is because the circumferential strip so that the device can be in direct contact with skin of a user's body, Thus, whether the device or on a strip, the electrodes may be directly provided on the surface in contact with the user's skin to further save the trouble of the external electrode. 不过,在此要特别提出的是,这也仅是其中的一种可能性而己,也就是说,当实施为环绕式装置时,该装置本身同样可以采用外接电极或是外接传感器的形式,并不受限。 Here, however, I wish to highlight that this is only one possibility and which is hexyl, that is, when the embodiment is a wrap-around means, the device itself may also be in the form of an external electrode or an external sensor employed, It is not limited.

以下即举例说明一些环绕式装置的实例。 I.e., the following examples illustrate some of the wrap-around device.

如图5A所示,根据本发明的该环绕式无线生理信号监测装置可以实施为手表式的心电检测装置500,其可以利用在本体及/或表带接触手腕的表面上设置部分的心电电极,以及在表面上设置另一部份的心电电极,以在非配戴该手表的手也接触该表面上的电极时进行心电信号的测量,此外,在图5A 中所搭配的另一种无线生理监测则为血氧传感器501。 5A, the surrounding wireless physiological signal monitoring device according to the invention may be embodied as a wrist watch type of ECG detection means 500, which may be utilized on and / or the surface of the body in contact with the wrist strap portion disposed ECG electrodes, and ECG electrodes disposed on another portion of the surface to that in the non-wearing the watch hands on the contact electrode surface to measure the ECG signal, in addition, in Figure 5A with the other A wireless physiological monitoring sensor 501 compared with oxygen. 通过此实施例,可以对使用者的心血管疾病进行监测。 With this embodiment, the user can monitor the cardiovascular disease.

或者是,在手表式的实施情况中,其也可以是手表式的肌电测量装置502 搭配无线血氧传感器503,如图5B所示。 Alternatively, in the embodiment of the wrist watch type case, it may be a wrist watch type myoelectric measurement device 502 with wireless oximeter sensor 503, shown in Figure 5B. 此时,该本体以及表带下就不需要设置电极,只需外接肌电电极即可,这是因为在这种情况下,肌电信号要提供作为血氧测量的校正之用,以使得容易因移动而受到千扰的血氧检测可以有更正确的测量结果,因此,肌电电极必须要设置在接近进行血氧检测的手指附近,而无须设置在手表的表体或是表带之上。 At this time, this need not be provided on the body and a band electrode can simply add EMG electrodes, since in this case, to provide a correction of the EMG signal as measured with the oxygen, to make it easy oximetry interference due to the movement may be subject to one thousand more correct measurement results, therefore, EMG electrodes must be disposed in the vicinity of the finger approaches for detecting blood oxygen, arranged on the table without the body or watch strap .

此外,如图6所示,根据本发明的该环绕式无线生理信号监测装置可以加以实施为头带式脑电检测装置600,其利用头带来固定测量脑电信号吋设置在使用者头部的电极,并且该头带本身接触使用者皮肤的表面上,同样可以设置电极(未显示),至于其自外界所接收的生理信号则是多重生理信号监测装置601所发射的生理信号,其中,该装置601包括呼吸传感器60il 以及鼾声传感器6012。 Further, as shown in FIG 6, this embodiment can be around the wireless physiological signal monitoring device according to the invention is a detection device EEG headband 600, which is fixed by the head brings the EEG measuring head of the user is provided inch electrode, and the upper surface contacting the skin of the user itself headband, can also be provided an electrode (not shown), which from the outside as to the physiological signal received physiological signal is a physiological signal monitoring device 601 multiplex transmitted, wherein the sensor device 601 comprises a respiration sensor 6012 60il and snoring. 通过该实施例,可以对使用者在睡眠时的呼吸障碍情形进行监测。 , Respiratory disorder can be monitored in case of a user during sleep by this embodiment.

接着,如图7所示,根据本发明的该环绕式无线生理信号监测装置可以实施为绑带式胸腹呼吸传感器700,其利用胸带7001以及腹带7002而附着在使用者的躯体之上,并且该胸带7001以及腹带7002本身就加以实施为感测元件,也就是说,该胸带7001以及腹带7002与感测元件合为一体,而且 Next, as shown in FIG. 7, the surrounding wireless physiological signal monitoring device according to the invention may be embodied as a strap type abdominal breathing sensor 700, which uses a chest strap adheres 7001 and 7002 on athletic body of the user and the chest band 7001 and 7002 athletic itself be implemented as a sensing element, i.e., the abdominal belt and the chest belt 7001 and 7002 as one sensing element, and

由于该胸带及腹带的面积较大,因此,该电路系统、无线传输接口等元4牛, 除了如图所示地可以包含在壳体内之外,也可以加以实施为直接分散在该胸带及该腹带之中(未标示),这样一来就可以更进一步地减少使用者的负矛旦, Due to the large area of ​​the chest strap and the cummerbund, thus, this circuit system, a wireless transmission interface unit 4 cattle, except may be contained within a housing as shown in FIG., May also be directly dispersed in the embodiment of the chest and during the athletic tape (not shown), so that the user can further reduce the negative spear denier,

然后当配置上鼾声传感器701时,这就是另一种对使用者的睡眠呼吸障〗辱情形进行监测的实施例。 Then, when the sensor 701 disposed on snoring, which is a further obstacle to the user's sleep for the case of the embodiment shame〗 monitoring.

当然,除了上述所举例说明的环绕式实施例之外,还可以有各式各样其它的组合方式以及实施方式,例如,可以环绕在手臂上、或脚踝上测肌电或四肢移动等,因此本发明并不受限于上述的举例说明。 Of course, in addition to wraparound embodiments illustrated above, but also with a variety of other possible combinations and embodiments, for example, it can be wrapped around the arm, ankle or measured EMG or limb movement, etc., so the present invention is not limited to the example described above.

另外,根据本发明无线生理信号监测装置的另一较佳实施方式,该无线生理信号监观lj装置也可以加以实施为吊挂式装置,而当实施为吊挂式装置ll寸,该依附媒介就可以实施为吊挂带,以吊挂在使用者身上,例如颈部,如图8所示。 Further, according to another preferred embodiment of a wireless physiological signal monitoring device of the present invention, the concept of wireless physiological signal monitoring apparatus lj may be implemented as a hanging means, and when the embodiment is a ceiling-mounted apparatus ll inch, the attach media It can be implemented as a hanging belt for hanging on the user, such as the neck, as shown in FIG. 在该实施方式中,该无线生理信号监测装置实施为颈挂式心电测量装置800,而电极801则是以外接的方式连接于该装置800之外,或者当然也可以是当有需要时再从壳体中拉出,而贴附在适当的位置,甚至也可以是直接设置在该本体接触使用者身体的部分,举例而言,利用钮扣结构而使得传统的钮扣电极贴片可以附着于其上,然后,再利用贴片本身的黏性而贴附在适当的测量位置等,实施的方式并不受限。 In this embodiment, the wireless physiological signal monitoring apparatus embodiment carotid hanging ECG measurement device 800, and the electrode 801 is connected to the external devices other than 800, or, of course, then when needed drawn out from the housing, and attached in place, or even be arranged directly contacting the body portion of the user's body, for example, using a structure such that the conventional button button electrode patch may be attached thereon, and then, re-use of the adhesive patch itself attached to a suitable measurement position and the like, the embodiment is not limited. 接着相同的,也可以搭配上贝:它有需要的生理监测装置,例如血氧传感器、肌电传感器、脑电传感器等(未标示),就可以达到多重生理信号监测的目的,选择性相当多。 Then the same, can be used with the shell: it need physiological monitoring device, such as blood oxygen sensor, a myoelectric sensor, EEG sensor (not shown), can achieve the purpose of monitoring multiple physiological signals, considerable selectivity .

此外,也由于本发明的多样性,因此该无线生理信号监测装置能够进行检测的信号可以包括心电信号、脑电信号、眼动信号、肌电信号、鼾声信号、 呼吸信号、胸腹呼吸信号、四肢移动感测信号、躯体移动感测信号、头部移动感测信号以及血氧信号的至少其中之一,并且该无线生理信号监测装置可以接收的生理信号也是一样。 Further, due to the diversity of the present invention, this wireless physiological signal monitoring device capable of detecting a signal may include ECG, EEG, eye movement signals, EMG, snoring signal, the respiratory signal, abdominal respiration signal , at least one limb movement sensing signal, the sensing signal of the body movement, head movement and the oxygen sensing signal signal, the physiological signal and the physiological signal monitoring wireless device can receive the same. 只要是关于生理信号的监测都属于本发明可以实施的范畴。 About as long as the monitoring of physiological signals belong to the scope of the present invention may be practiced.

另外,根据本发明的该无线生理监测装置除了生理信号的提取与接收以及结构上的特征之外,如前所述,其也具有会将经处理的生理信号以及接收的生理信号向外传递的特征,因此,其在达到对外传输之前将会连接至会接收其所传输的信号的外部装置,以进行后续的分析、解读等,而其中该外部装置则可以是服务器、个人计算机、笔记本电脑、PDA、手机以及任何可以 Further, the wireless physiological monitoring device according to the invention in addition to receiving and extracting structural features on the physiological signals, as previously described, which will also have a physiological signal processed by the signal receiving and transmitting physiological outwardly characteristics, therefore, it will reach the external connection before transmitted to the external apparatus receives the signal transmitted it, for subsequent analysis, interpretation, etc., and wherein the external apparatus may be a server, a personal computer, a notebook computer, PDA, cell phone and anything that can

进行运算及/或储存及/或显示的装置的其中之一,再加上该外部装置可以连接至网络,所以可以实现生理信号监测网络。 For one operation and / or storage and / or display means, coupled with the external device may be connected to a network, it is possible to achieve a physiological signal monitoring network.

举例而言,通过上述的机制病患可以将在家中进行生理监测所得的信息传送给远方的医生,而医生也可以轻易地在家中监控进行测量的病患的情形,此外当有需要、或是有状况发生时,医护人员也可以在远处利用网络以及该外部装置而对使用者身上的该生理信号监测装置进行设定,进而达到双向的无空间、吋间限制的沟通。 For instance, information transfer may be obtained by monitoring the physiological mechanism of the above-described home patients distant doctor, the doctor can easily be performed at home to monitor the situation of the patient measured addition, when necessary, or situation occurs when, medical personnel may also be the physiological signal monitoring device of the user's body is set at a distance using a network and an external device, thus achieving two-way free space, limiting communication between inch.

至-P该无线传输接口则可以为802.11x、红外线、蓝牙、RF射频、PHS、 GSM、以及任何无线通信协议的其中之一。 -P radio transmission interface to the one that can 802.11x, infrared, Bluetooth, RF radio, PHS, GSM, and any wireless communication protocol.

综上所述,根据本发明的无线生理信号监测装置除了本身可以进行生理信号的监测之外,还同时可以无线地接收来自身上其它生理监测装置所测得并发射的信号并进行整合,然后再将生理信号向外传输至外部装置,以达到无空间限制的无线双向沟通,也减少多重生理信号监测装置的部分体积,另外,根据本发明的该无线生理信号监测装置除了在生理信号通信方面的特征之外,为了达到可携的目的,其在结构上包括有依附媒介,以使得整个装置能够轻易的依附在使用者身上,以改善公知技术中接线复杂、体积庞大、笨宽的缺点,进而实现轻巧、方便的生理监测装置。 In summary, the wireless physiological signal monitoring device according to the invention can be monitored in addition to their physiological signals, and can also wirelessly receive signals from and transmit the measured body other physiological monitoring device and integrated, and then the physiological signal transmitted out to the external device, no space constraints in order to achieve two-way wireless communication, but also reduce the volume of the multiple portions physiological signal monitoring device, further, the wireless physiological signal monitoring device according to the invention in addition to the physiological aspects of the communication signal characterized in addition, for purposes of portability, which is dependent on the structure comprises a medium, so that the entire device can be easily attached to the user's body, to improve the known art wiring complexity, bulky, clumsy wide drawbacks and achieve lightweight, easy to physiological monitoring device.

虽然本发明已由上述的实施例详细描述,并可由熟悉该技术的人作出各种修改,然而都不脱离所附权利要求书的范围。 While the above-described embodiments of the present invention has been described in detail, various modifications may be made by a person skilled in the art, however without departing from the scope of the appended claims.

Claims (16)

1. 一种可携式无线生理信号监测装置,包括:感测元件,用以自一使用者感测生理信号;本体,包括:连接接口,用以连接该感测元件;无线传输接口,用于接收设置于使用者身上的至少一另一无线生理信号监测装置所发射的数字生理信号,并与该至少一另一无线生理信号监测装置间进行信息交换,以及用于进行该可携式无线生理信号监测装置与使用者身体外的外部装置的信息交换;电源,以提供整体操作所需的电力;以及电路系统,用以接收所感测的生理信号,以及对该所感测的生理信号进行处理;以及依附媒介,用于让该使用者随身操作该可携式无线生理信号监测装置,其中,在该可携式无线生理信号监测装置之中,该感测元件所感测的生理信号以及经由该无线传输接口而接收自该至少一另一无线生理信号监测装置的数字生理信号会进行同步 1. A portable wireless physiological signal monitoring device, comprising: a sensing element for sensing a user from a physiological signal; a body, comprising: a connection interface for connecting the sensing element; a wireless transmission interface, with a digital physiological signal at least another wireless physiological signal monitoring device is provided in the user's body to receive the transmitted, and the information exchange between the at least one other wireless physiological signal monitoring means, and means for the portable radio Clearing the external device outside the physiological signal monitoring device with the user's body; power, to provide an overall power required for operation; and a circuit system configured to receive the sensed physiological signal and the physiological signal sensed be processed ; and attachment medium, for letting the user of the portable wireless portable physiological signal monitoring device operation, wherein, in the portable wireless physiological signal monitoring device, the sensing element and a physiological signal sensed through the sensing wireless transmission interfaces received from the at least one physiological signal will further digital wireless physiological signal monitoring device synchronizes 合,之后再传送至该外部装置。 Together, then the external apparatus before passing it.
2. 根据权利要求1所述的装置,其中当该可携式无线生理信号监测装置实施为手持式装置时,该依附媒介实施为该本体上允许该使用者握持的部分。 2. The apparatus according to claim 1, wherein when carrying the portable wireless physiological signal monitoring device is a handheld device, the attach media embodiment for allowing the user to grip the body portion.
3. 根据权利要求1所述的装置,其中当该可携式无线生理信号监测装置实施为环绕式装置时,该依附媒介实施为可环绕使用者的带体。 3. The apparatus according to claim 1, wherein when the portable wireless physiological signal monitoring apparatus according to surround the devices, which attach to strip media embodiment may encircle the user.
4. 根据权利要求3所述的装置,其中该带体实施为环绕使用者的四肢、 躯体、或头部。 4. The apparatus according to claim 3, wherein the strip embodiment to surround the user's limb, torso, or head.
5. 根据权利要求3所述的装置,其中该带体用以接触使用者的表面,设置有该感测元件。 5. The apparatus according to claim 3, wherein the surface of the contact strip to a user is provided with the sensing element.
6. 根据权利要求1所述的装置,其中当该可携式无线生理信号监测装置实施为吊挂式装置时,该依附媒介实施为吊挂带。 6. The apparatus according to claim 1, wherein when carrying the portable device is a wireless physiological signal monitoring hanging means, this embodiment is attached to the media hanging band.
7. 根据权利要求1项所述的装置,其中该可携式无线生理信号监测装置用以检测下列信号的至少其中之一:心电信号、脑电信号、眼动信号、肌电信号、鼾声信号、呼吸信号、胸腹呼吸信号、四肢移动感测信号、躯体移动感测信号、头部移动感测信号以及血氧信号。 ECG, EEG, eye movement signals, EMG snoring: 7. The apparatus according to claim 1, wherein the portable wireless physiological signal monitoring means for detecting at least one of the following signals signal, the respiratory signal, abdominal respiration signal, limb movement sensing signal, the body motion sensing signal, the sensing head movement signals and oxygen signals.
8. 根据权利要求1所述的装置,其中该至少一另一无线生理信号监测装置可用以检测下列信号的至少其中之一:心电信号、脑电信号、眼动信号、 肌电信号、鼾声信号、呼吸信号、胸腹呼吸信号、四肢移动感测信号、躯体移动感测信号、头部移动感测信号、以及血氧信号。 8. The apparatus according to claim 1, wherein the at least one other wireless physiological signal monitoring means may be used to detect at least one of the following signals: ECG, EEG, eye movement signals, EMG, snoring signal, the respiratory signal, abdominal respiration signal, limb movement sensing signal, the body motion sensing signal, the sensing head movement signal, and a blood oxygen signal.
9. 根据权利要求1所述的装置,其还包括操作接口,以利于使用者的操作,并且其中,该操作接口包括按钮,以用作按压标记时间点;显示装置, 以用以显示数据;以及有线传输接口,以用于对该外部装置传输所述经处理的感测生理信号以及所述接收的数字生理信号,用以作为该无线生理信号监测装置与该至少一另一无线生理信号监测装置之间的传输接口,以及用以作为电源来源的传输接口。 9. The apparatus according to claim 1, further comprising a user interface to facilitate the user's operation, and wherein the user interface includes a button to be used as the pressing time marker; display means for displaying data to; and a wired transmission interface, the external device for the transmission of the processed sensed physiological signal and the physiological signal received by the digital, as for the wireless physiological signal monitoring device and the at least one other wireless physiological signal monitoring the interface between the transmission means, as well as an interface for transmitting power sources.
10. 根据权利要求1所述的装置,其还包括存储单元以进行储存,并且其中所述经处理的感测生理信号以及所述接收的数字生理信号先储存在该存储单元中,之后再利用该无线传输接口向外传输。 10. The apparatus according to claim 1, further comprising a storage unit for storage, and wherein said sensing a physiological signal processed digital physiological signal and the first received stored in the storage unit, then re-use the wireless transmission interface transmitting outwardly.
11. 根据权利要求10所述的装置,其还包括有线传输接口,用于对该外部装置传输先行储存在该存储单元中的所述经处理的感测生理信号以及所述接收的数字生理信号。 11. The apparatus according to claim 10, further comprising a wired transmission interface, for sensing a physiological signal processed by said external device stored in the transmission of the first storage means and said received physiological signal digital .
12. 根据权利要求1所述的装置,其中该无线传输接口实时地将所述经处理的感测生理信号以及所述接收的数字生理信号向外传输。 12. The apparatus according to claim 1, wherein the radio transmission interface to the real-time physiological signal sensed physiological signal and a digital processing of the received transmission outwardly.
13. 根据权利要求1所述的装置,其中该无线传输接口可以在该感测元件感测生理信号的同时接收来自该至少一另一无线生理信号监测装置所发射的数字生理信号。 13. The apparatus according to claim 1, wherein the wireless digital transmission interface may receive the physiological signals transmitted from the at least one monitoring device to another wireless physiological signal while the sensing element sensing a physiological signal.
14. 根据权利要求1所述的装置,其中该无线传输接口为下列无线通信协议的其中之一:802.11x、红外线、蓝牙、RF射频、PHS以及GSM。 14. The apparatus according to one of claim 1, wherein the wireless transmission interface is a wireless communication protocol following: 802.11x, infrared, Bluetooth, RF radio, the PHS and GSM.
15. 根据权利要求1所述的装置,其中该电路系统至少包括脉冲单元、 处理器、放大器、以及模拟/数字转换器;该处理至少包括放大以及模拟数字转换;以及该外部装置可以对该可携式无线生理信号监测装置进行监控以及设定,并可连接至网络。 15. The apparatus according to claim 1, wherein the circuitry includes at least a pulse unit, a processor, an amplifier, and an analog / digital converter; the process comprising at least amplification and analog-digital converter; and the external device may be portable wireless monitoring device for monitoring a physiological signal and setting, and can be connected to the network.
16. 根据权利要求1所述的装置,该外部装置为下列装置的其中之一: 服务器、个人计算机、笔记本电脑、PDA以及手机。 16. The apparatus according to claim 1, wherein the external apparatus is one of the following means: a server, a personal computer, laptop, PDA, and mobile phones.
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