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    • 1. 发明申请
    • Method and Apparatus for Determining the Location of a Mobile Object
    • 用于确定移动对象的位置的方法和装置
    • US20100103048A1
    • 2010-04-29
    • US11991588
    • 2006-12-12
    • Joachim BambergerBruno Betoni ParodiJoachim HornHenning LenzAndrei Szabo
    • Joachim BambergerBruno Betoni ParodiJoachim HornHenning LenzAndrei Szabo
    • G01S3/02G06F17/11
    • G01S5/0252H04B17/318H04B17/391H04W64/00
    • The invention relates to a position-finding method for d4eterming the location of a mobile object. The features, for example received field strengths, of a plurality of base stations are measured, and the object position is located from these features, using a reference map. During an initialization process, a reference map is created which comprises a multiplicity of positions and the associated feature-dependent values. During use of the method, a plurality of position-finding processes are carried out, by means of each of which a measured feature-dependent value and from this, a located position of the object, are determined using the predetermined reference map. The predetermined reference map is in each case updated for at least some of the positions found, during which updates, the feature-dependent values are each corrected by a correction term at the support points of the reference map in a predetermined area surrounding an object position.
    • 本发明涉及一种用于确定移动对象的位置的位置查找方法。 测量多个基站的特征,例如接收的场强度,并且使用参考图从物体位置定位对象位置。 在初始化过程中,创建包括多个位置和相关联的特征相关值的参考图。 在使用该方法期间,通过使用预定的参考图来确定测量的特征相关值,并且由此确定对象的定位位置,执行多个位置查找处理。 在每种情况下,对于所找到的位置中的至少一些位置来更新预定参考图,在此期间,通过在参考地图的支撑点处的校正项来校正特征相关值,该校正项围绕物体位置 。
    • 2. 发明授权
    • Method and apparatus for determining the location of a mobile object
    • 用于确定移动对象的位置的方法和装置
    • US08102314B2
    • 2012-01-24
    • US11991588
    • 2006-12-12
    • Joachim BambergerBruno Betoni ParodiJoachim HornHenning LenzAndrei Szabo
    • Joachim BambergerBruno Betoni ParodiJoachim HornHenning LenzAndrei Szabo
    • G01S3/02
    • G01S5/0252H04B17/318H04B17/391H04W64/00
    • The invention relates to a position-finding method for determing the location of a mobile object. The features, for example received field strengths, of a plurality of base stations are measured, and the object position is located from these features, using a reference map. During an initialization process, a reference map is created which comprises a multiplicity of positions and the associated feature-dependent values. During use of the method, a plurality of position-finding processes are carried out, by means of each of which a measured feature-dependent value and from this, a located position of the object, are determined using the predetermined reference map. The predetermined reference map is in each case updated for at least some of the positions found, during which updates, the feature-dependent values are each corrected by a correction term at the support points of the reference map in a predetermined area surrounding an object position.
    • 本发明涉及一种用于确定移动物体位置的定位方法。 测量多个基站的特征,例如接收的场强度,并且使用参考图从物体位置定位对象位置。 在初始化过程中,创建包括多个位置和相关联的特征相关值的参考图。 在使用该方法期间,通过使用预定的参考图来确定测量的特征相关值,并且由此确定对象的定位位置,执行多个位置查找处理。 在每种情况下,对于所找到的位置中的至少一些位置来更新预定参考图,在此期间,通过在参考地图的支撑点处的校正项来校正特征相关值,该校正项围绕物体位置 。
    • 3. 发明授权
    • Wireless communication device
    • 无线通信设备
    • US07986963B2
    • 2011-07-26
    • US12087135
    • 2006-12-07
    • Joachim BambergerMichael KrügerHenning LenzGunter Magin
    • Joachim BambergerMichael KrügerHenning LenzGunter Magin
    • H04M1/00
    • H04B1/3805
    • The invention relates to a wireless communication device comprising an electrically operated radio module for wireless communication by receiving and/or transmitting communication signals in a transmitting and/or receiving mode; an electrically operated processor unit for controlling wireless communication via the radio module; a motion sensor for detecting movements and/or accelerations of the communication device, wherein the motion sensor outputs at least one detection signal to the processor unit in the event of the occurrence of movements and/or accelerations of a predetermined magnitude, wherein the processor unit is coupled to the motion sensor and the radio module in such a manner that it occasionally puts the radio module into the transmitting and/or receiving mode when outputting the at least one detection signal of the motion sensor.
    • 本发明涉及一种无线通信设备,其包括用于通过在发送和/或接收模式下接收和/或发送通信信号来进行无线通信的电动无线电模块; 用于经由无线电模块控制无线通信的电动处理器单元; 用于检测所述通信设备的移动和/或加速度的运动传感器,其中所述运动传感器在发生预定幅度的运动和/或加速度的情况下将至少一个检测信号输出到所述处理器单元,其中所述处理器单元 以这样的方式耦合到运动传感器和无线电模块,使得当输出运动传感器的至少一个检测信号时,有时将无线电模块置于发射和/或接收模式。
    • 4. 发明申请
    • Wireless Communication Device
    • 无线通信设备
    • US20090221332A1
    • 2009-09-03
    • US12087135
    • 2006-12-07
    • Joachim BambergerMichael KrügerHenning LenzGunter Magin
    • Joachim BambergerMichael KrügerHenning LenzGunter Magin
    • H04M1/00H04B1/38
    • H04B1/3805
    • The invention relates to a wireless communication device comprising an electrically operated radio module for wireless communication by receiving and/or transmitting communication signals in a transmitting and/or receiving mode; an electrically operated processor unit for controlling wireless communication via the radio module; a motion sensor for detecting movements and/or accelerations of the communication device, wherein the motion sensor outputs at least one detection signal to the processor unit in the event of the occurrence of movements and/or accelerations of a predetermined magnitude, wherein the processor unit is coupled to the motion sensor and the radio module in such a manner that it occasionally. puts the radio module into the transmitting and/or receiving mode when outputting the at least one detection signal of the motion sensor.
    • 本发明涉及一种无线通信设备,其包括用于通过在发送和/或接收模式下接收和/或发送通信信号来进行无线通信的电动无线电模块; 用于经由无线电模块控制无线通信的电动处理器单元; 用于检测所述通信设备的移动和/或加速度的运动传感器,其中所述运动传感器在发生预定幅度的运动和/或加速度的情况下将至少一个检测信号输出到所述处理器单元,其中所述处理器单元 以偶尔的方式耦合到运动传感器和无线电模块。 当输出运动传感器的至少一个检测信号时,使无线电模块进入发送和/或接收模式。
    • 5. 发明申请
    • Method for Operating a Coriolis Mass Flow Rate Meter and Coriolis Mass Flow Rate Meter
    • 科里奥利质量流量计和科里奥利质量流量计的操作方法
    • US20130055827A1
    • 2013-03-07
    • US13515931
    • 2009-12-14
    • Thomas BierweilerWolfgang EnsFelix HammacherHenning Lenz
    • Thomas BierweilerWolfgang EnsFelix HammacherHenning Lenz
    • G01F1/78
    • G01F1/8477G01F1/74G01F1/8413G01F1/8431G01F1/8436
    • A method for operating a Coriolis mass flow rate meter and a Coriolis mass flow rate meter including an evaluation device, a measuring tube having a medium flowing therethrough and which is excited so as to perform oscillations, and at least two spaced oscillation pickups spaced apart in the longitudinal direction of the measuring tube to each generate an oscillation signal, wherein a first indicator variable based on the damping of the oscillations of the measuring tube is initially used to detect deposits in the measuring tube and if, based on the first indicator variable, increased damping is established, a second indicator variable is used, which is based on the manifestation of harmonics in the frequency spectrum of an oscillation signal such that reliable detection of deposits and therefore an indication of the state of meters and pipelines in a process engineering installation are advantageously possible.
    • 一种用于操作科里奥利质量流量计和科里奥利质量流量计的方法,其包括评估装置,具有流过其中并被激发以进行振荡的介质的测量管,以及间隔开的至少两个间隔开的振荡拾取器 测量管的纵向方向各自产生振荡信号,其中基于测量管的振荡的阻尼的第一指示器变量最初用于检测测量管中的沉积物,并且如果基于第一指示符变量, 建立增加的阻尼,使用第二指标变量,其基于振荡信号的频谱中的谐波的表现,使得可靠地检测沉积物,并且因此在过程工程设计中指示仪表和管道的状态 有利地是可能的。
    • 7. 发明授权
    • Method for operating a coriolis mass flow rate meter and coriolis mass flow rate meter
    • 操作科里奥利质量流量计和科里奥利质量流量计的方法
    • US09086308B2
    • 2015-07-21
    • US13515931
    • 2009-12-14
    • Thomas BierweilerWolfgang EnsFelix HammacherHenning Lenz
    • Thomas BierweilerWolfgang EnsFelix HammacherHenning Lenz
    • G01F1/84G01F1/74
    • G01F1/8477G01F1/74G01F1/8413G01F1/8431G01F1/8436
    • A method for operating a Coriolis mass flow rate meter and a Coriolis mass flow rate meter including an evaluation device, a measuring tube having a medium flowing therethrough and which is excited so as to perform oscillations, and at least two spaced oscillation pickups spaced apart in the longitudinal direction of the measuring tube to each generate an oscillation signal, wherein a first indicator variable based on the damping of the oscillations of the measuring tube is initially used to detect deposits in the measuring tube and if, based on the first indicator variable, increased damping is established, a second indicator variable is used, which is based on the manifestation of harmonics in the frequency spectrum of an oscillation signal such that reliable detection of deposits and therefore an indication of the state of meters and pipelines in a process engineering installation are advantageously possible.
    • 一种用于操作科里奥利质量流量计和科里奥利质量流量计的方法,其包括评估装置,具有流过其中并被激发以进行振荡的介质的测量管,以及间隔开的至少两个间隔开的振荡拾取器 测量管的纵向方向各自产生振荡信号,其中基于测量管的振荡的阻尼的第一指示器变量最初用于检测测量管中的沉积物,并且如果基于第一指示符变量, 建立增加的阻尼,使用第二指标变量,其基于振荡信号的频谱中的谐波的表现,使得可靠地检测沉积物,并且因此在过程工程设计中指示仪表和管道的状态 有利地是可能的。