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    • 2. 发明申请
    • A SYSTEM AND A METHOD FOR ENABLING AN AUTOMATED CUSTOMIZED SERVICE OFFER
    • 一种用于启动自动定制服务提供的系统和方法
    • WO2004057853A3
    • 2004-11-04
    • PCT/IB0305871
    • 2003-12-10
    • PHILIPS INTELLECTUAL PROPERTYKONINKL PHILIPS ELECTRONICS NVMONTVAY ANDRASREITER HARALDLAUTER JOSEFSCHMIDT RALFSUCH OLAFREICHINGER CHRISTIAN
    • MONTVAY ANDRASREITER HARALDLAUTER JOSEFSCHMIDT RALFSUCH OLAFREICHINGER CHRISTIAN
    • H04M3/42H04M11/04
    • H04M3/42042H04M2242/04
    • The invention relates to a method for automatic customization of a service to a user by a remote host (32') by means of a telematic communication (40), said remote host comprising storage means (47) for storing a background information about the user, said method comprising the steps of initiating a trigger information (39) at a user's site upon an occurrence of an event corresponding to a need of the user, acquiring a context information (36) about the user at the user's site, combining the trigger information (39) with the context information (36) in a specific message, sending the specific message to the remote host by means of the telematic communication, receiving the specific message by the remote host, processing of said trigger information by the remote host in combination with the background information (47) according to a prestored user identification (45), processing said context information (43) by the remote host, putting forward a service offer to the user based on a combination of said trigger information (41), said background information (47) and said context information (43).
    • 本发明涉及通过远程信息通信(40)由远程主机(32')自动定制服务给用户的方法,所述远程主机包括用于存储关于用户的背景信息的存储装置(47) 所述方法包括以下步骤:在发生与用户的需要相对应的事件发生时在用户的站点发起触发信息(39),在用户站点获取关于用户的上下文信息(36),组合触发器 信息(39)与上下文信息(36)在特定消息中,通过远程信息通信将特定消息发送到远程主机,由远程主机接收特定消息,由远程主机处理所述触发信息 与根据预先存储的用户标识(45)的背景信息(47)组合,由远程主机处理所述上下文信息(43),基于梳子向用户提供服务提供 所述触发信息(41),所述背景信息(47)和所述上下文信息(43)。
    • 3. 发明申请
    • A DEVICE ARRANGED FOR CARRYING OUT A BIOELECTRICAL INTERACTION WITH AN INDIVIDUAL AND A METHOD FOR ON-DEMAND LEAD-OFF DETECTION
    • 用于实施与个体的生物相互作用的装置和用于求求导联检测的方法
    • WO2005037099A8
    • 2007-03-15
    • PCT/IB2004052007
    • 2004-10-07
    • KONINKL PHILIPS ELECTRONICS NVPHILIPS INTELLECTUAL PROPERTYREITER HARALDMONTVAY ANDRASLAUTER JOSEFSUCH OLAFSCHMIDT RALF
    • REITER HARALDMONTVAY ANDRASLAUTER JOSEFSUCH OLAFSCHMIDT RALF
    • A61B5/0424
    • A61B5/0424
    • A device to carry out a bioelectrical interaction with an individual by means of electrodes 29, 29a whereby an on-demand verification of the integrity of the electrical contact of the electrodes is implemented. The device 20 comprises a control unit 22 arranged to determine an occurrence of the predefined event related to a quality of a measured signal. In case the predetermined event is detected, the control unit 22 actuates the testing means 24. The testing means is arranged to generate the test signals, I1,12 and to apply them via a coupling circuit 23, 23a to the electrodes. In case it is desired that cumulative information about the contact integrity is obtained, is it sufficient to apply a single test signal per electrode. In case it is required to determine which of the electrodes has lost its contact, a sequence of test signals is generated by the sequencer 24b. The response signal from the electrodes 29, 29a is forwarded to the input filter 26, which is preferably also used for a normal signal analysis. The signal from the input filter 26 is directed via the input impedance 25, 25a to the input amplifier 28. The amplified response signal is forwarded to the signal processing means 30 which is arranged to analyze the response signal. Preferably, an amplitude analysis is done. The signal from the signal processing means 30 is supplied to the analog-to-digital converter (ADC) 32 after which a digital processing of the response signal is carried out by means of a further processing unit 34. In case the further processing unit 34 determines that the integrity of the contact is below the allowable level, the lead-off indicator 36 is actuated.
    • 通过电极29,29a与个体进行生物电相互作用的装置,从而实现对电极的电接触的完整性的按需验证。 设备20包括控制单元22,其被布置为确定与测量信号的质量相关的预定事件的发生。 在检测到预定事件的情况下,控制单元22致动测试装置24.测试装置被布置成产生测试信号I1,12并且经由耦合电路23,223将它们施加到电极。 在需要获得关于接触完整性的累积信息的情况下,每个电极应用单个测试信号是否足够。 在需要确定哪些电极已经失去其接触的情况下,测序信号的序列由定序器24b产生。 来自电极29,29a的响应信号被转发到输入滤波器26,其优选也用于正常信号分析。 来自输入滤波器26的信号经由输入阻抗25,25a被引导到输入放大器28.经放大的响应信号被转发到信号处理装置30,信号处理装置30用于分析响应信号。 优选地,进行振幅分析。 来自信号处理装置30的信号被提供给模数转换器(ADC)32,之后通过另外的处理单元34进行响应信号的数字处理。在另外的处理单元34 确定接触件的完整性低于容许水平,引导指示器36被致动。
    • 6. 发明申请
    • PATIENT MONITORING SYSTEM AND METHOD
    • 患者监护系统及方法
    • WO2006131855A3
    • 2007-02-15
    • PCT/IB2006051753
    • 2006-06-01
    • PHILIPS INTELLECTUAL PROPERTYKONINKL PHILIPS ELECTRONICS NVBRAUERS ANDREASSUCH OLAFMUEHLSTEFF JENSREITER HARALD
    • BRAUERS ANDREASSUCH OLAFMUEHLSTEFF JENSREITER HARALD
    • A61B5/0408A61B5/113
    • A61B5/6892A61B5/04085A61B5/113A61B2562/0209A61B2562/046A61B2562/182
    • The present invention relates to a patient monitoring system for monitoring cardio pulmonary performance or the like by means of capacitive measurement. Further the invention relates to a method for monitoring cardio pulmonary performance or the like by means of a capacitive measurement. In order to provide a reliable technique for monitoring cardio pulmonary performance or the like, which technique is particularly suitable for home use, a patient monitoring system (1) for monitoring cardio pulmonary performance or the like by means of capacitive measurement is suggested, said system (1) comprising a number of electrodes (2) arranged in the form of a matrix (3), said electrodes (2) being adapted to be integrated with a bed (4) or the like, each electrode (2) being individually selectable, means (5) for determining a number of electrodes (2) depending on the position of the patient on the bed (4) or the like, said means (5) being adapted to determine the number of electrodes (2) by determining the capacitance of a number of electrodes (2), and means (5) for selecting a number of said determined electrodes (2) for carrying out a capacitive measurement.
    • 本发明涉及通过电容测量来监测心肺功能等的患者监视系统。 此外,本发明涉及一种通过电容测量来监测心肺功能等级的方法。 为了提供用于监测心肺功能等的可靠技术,该技术特别适合于家庭使用,建议通过电容测量来监测心肺功能等的患者监视系统(1),所述系统 (1)包括以矩阵(3)的形式布置的多个电极(2),所述电极(2)适于与床(4)等集成,每个电极(2)可单独选择 ,用于根据患者在床(4)等上的位置来确定电极(2)的数量的装置(5),所述装置(5)适于通过确定电极(2)的数量来确定电极 多个电极(2)的电容和用于选择用于进行电容测量的所述确定的电极(2)的数量的装置(5)。
    • 9. 发明申请
    • METHOD AND APPARATUS FOR INDUCTIVELY MEASURING THE BIO-IMPEDANCE OF A USER'S BODY
    • 用于感应测量用户身体的生物阻力的方法和装置
    • WO2006129212A2
    • 2006-12-07
    • PCT/IB2006051532
    • 2006-05-16
    • PHILIPS INTELLECTUAL PROPERTYKONINKL PHILIPS ELECTRONICS NVWAFFENSCHMIDT EBERHARDBRAUERS ANDREASREITER HARALDPINTER ROBERT
    • WAFFENSCHMIDT EBERHARDBRAUERS ANDREASREITER HARALDPINTER ROBERT
    • A61B5/053
    • The present invention relates to a method and apparatus (1) for inductively measuring the bio-impedance of a user' s body. Furthermore the invention relates to a bed (2) comprising said apparatus (1). In order to provide a method and apparatus for spatially resolved inductively measuring the bio-impedance of a user' s body without a complex circuitry, an apparatus (1) is suggested for inductively measuring the bio-impedance of a user's body, whereas the apparatus (1) comprises a number of first inductors (4), said first inductors (4) being adapted to induce an alternating magnetic field in the user's body and the apparatus (1) further comprises a number of second inductors (6), said second inductors (6) being adapted to measure a secondary magnetic field in the user's body, characterized in that each of the number of first inductors (4) overlaps at least one of the number of second inductors (6) to form a number of measuring areas (12, 25).
    • 本发明涉及用于感应测量使用者身体的生物阻抗的方法和装置(1)。 此外,本发明涉及包括所述装置(1)的床(2)。 为了提供用于空间分辨地感测地测量用户身体的生物阻抗而没有复杂电路的方法和装置,建议用于电感测量用户身体的生物阻抗的装置(1),而装置 (1)包括多个第一电感器(4),所述第一电感器(4)适于在用户的身体中感应交变磁场,并且所述装置(1)还包括多个第二电感器(6),所述第二电感器 电感器(6)适于测量用户身体中的次级磁场,其特征在于,多个第一电感器(4)中的每一个与多个第二电感器(6)中的至少一个重叠以形成多个测量区域 (12,25)。
    • 10. 发明申请
    • A WIRELESS POWERING DEVICE, AN ENERGIZABLE LOAD, A WIRELESS SYSTEM AND A METHOD FOR A WIRELESS ENERGY TRANSFER
    • 无线充电装置,可充电装置,无线系统和无线电能量传输方法
    • WO2005106901A3
    • 2006-05-26
    • PCT/IB2005051394
    • 2005-04-28
    • PHILIPS INTELLECTUAL PROPERTYKONINKL PHILIPS ELECTRONICS NVWAFFENSCHMIDT EBERHARDREITER HARALDDEPPE CARSTENSAUERLAENDER GEORGACKERMANN BERND
    • WAFFENSCHMIDT EBERHARDREITER HARALDDEPPE CARSTENSAUERLAENDER GEORGACKERMANN BERND
    • H01F38/14H02J5/00H02J7/02H02M3/337
    • H01F38/14H02J5/005H02J7/025H02J50/12H02J50/80H02J50/90H02M3/337
    • A wireless resonant powering device (1) according to the invention comprises a first inductor winding (3), which is arranged to form a transformer (9) with the inductor winding (13) of the energizable load (11). The first inductor winding (3) is arranged to form a resonant circuit (5), which may comprise a suitable plurality of electric capacitances and coils. The components of the resonant circuit (5) are selected such that the magnetic energy received by the inductor winding (13) damps the energy flow in the resonant circuit so that the induced voltage in the inductor winding (13) is substantially constant and is independent of the magnetic coupling between the first inductor winding (3) and the inductor winding 13 at the operating frequency of the driving means (6). The resonant circuit is driven by the driving means (6), comprising a control unit (6c) arranged to induce an alternating voltage between a first semiconductor switch (6a) and a second semiconductor switch (6b). At the output of the transformer (9) an alternating voltage is generated, which is rectified to a DC-voltage by a diode rectifier, filtered by an output capacitance. The resonant circuit (5) is operable on its coupling independent point by the driving means (6). This figure schematically illustrates a situation, where a variable coupling between the first inductor winding (3) and the inductor winding (13) exists. The invention further relates to a wireless inductive powering device, an energizable load, a wireless system and a method for wireless power transfer.
    • 根据本发明的无线谐振供电装置(1)包括第一电感器绕组(3),其被布置成与可激励负载(11)的电感器绕组(13)形成变压器(9)。 第一电感器绕组(3)被布置成形成谐振电路(5),其可以包括合适的多个电容和线圈。 选择谐振电路(5)的组件使得由电感线圈(13)接收的磁能减小谐振电路中的能量流,使得电感器绕组(13)中的感应电压基本上是恒定的并且是独立的 在驱动装置(6)的工作频率下,第一电感线圈(3)和电感器绕组13之间的磁耦合。 谐振电路由驱动装置(6)驱动,包括布置成在第一半导体开关(6a)和第二半导体开关(6b)之间引起交流电压的控制单元(6c)。 在变压器(9)的输出端产生交流电压,由二极管整流器整流为直流电压,由输出电容滤波。 谐振电路(5)可通过驱动装置(6)在其耦合独立点上操作。 该图示意性地示出了存在第一电感线圈(3)和电感线圈(13)之间的可变耦合的情况。 本发明还涉及无线感应供电装置,可激励负载,无线系统和无线电力传送方法。