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    • 3. 发明授权
    • Micro-baseline GPS angular determination
    • 微基线GPS角度测定
    • US08725400B1
    • 2014-05-13
    • US12220382
    • 2008-07-24
    • David A. Anderson
    • David A. Anderson
    • G01C21/00G01S13/00G01B11/26
    • G01S19/54G01S19/43
    • A method of determining a position of a target is disclosed. A position of a targeting instrument relative to a friendly asset is established. A signal from the friendly asset is transmitted. The signal from the friendly asset is received at first and second locations associated with the targeting instrument. An orientation of the targeting instrument relative to the friendly asset is determined based on when the signal is received at the first and second locations. The position of the targeting instrument relative to the friendly asset is compared with the orientation of the targeting instrument relative to the friendly asset, to thereby determine the orientation of the target relative to the targeting instrument.
    • 公开了一种确定目标位置的方法。 建立了针对友好资产的目标工具。 来自友好资产的信号被传送。 来自友好资产的信号在与目标仪器相关联的第一和第二位置处被接收。 基于在第一和第二位置处接收到信号的时间来确定目标仪器相对于友好资产的取向。 将目标工具相对于友好资产的位置与目标工具相对于友好资产的方向进行比较,从而确定目标相对于目标工具的方向。
    • 4. 发明授权
    • Tissue oxygenation monitoring in heart failure
    • 心力衰竭组织氧合监测
    • US08571620B2
    • 2013-10-29
    • US12797816
    • 2010-06-10
    • Can CinbisJames K. CarneyJonathan L. KuhnDavid A. Anderson
    • Can CinbisJames K. CarneyJonathan L. KuhnDavid A. Anderson
    • A61B5/00
    • A61N1/36557
    • A medical device system and associated method are used for monitoring a heart failure patient. A medical device for monitoring delivery of a therapy includes a sensor sensing an optical sensor signal corresponding to light attenuation by a volume of body tissue of a patient, a therapy delivery module to deliver a therapy, and a processor configured to compute a first tissue oxygenation measurement from the optical sensor signal prior to initiating delivery of the therapy, compute a second tissue oxygenation measurement from the optical sensor signal subsequent to initiating delivery of the therapy, compare the first and the second tissue oxygenation measurements, and determine whether the delivered therapy was successful in response to the first tissue oxygenation measurement and the second tissue oxygenation measurement.
    • 医疗器械系统和相关方法用于监测心力衰竭患者。 用于监测治疗递送的医疗装置包括传感器,其感测对应于患者的身体组织的体积的光衰减的光学传感器信号,用于递送治疗的治疗递送模块和被配置为计算第一组织氧合的处理器 在开始递送治疗之前从光学传感器信号进行的测量,在开始递送治疗之后从光学传感器信号计算第二组织氧合测量,比较第一和第二组织氧合测量,并确定递送的治疗是否为 成功地响应于第一次组织氧合测量和第二次组织氧合测量。
    • 7. 发明申请
    • Tissue Oxygenation Monitoring in Heart Failure
    • 心力衰竭组织氧合监测
    • US20100317942A1
    • 2010-12-16
    • US12797816
    • 2010-06-10
    • Can CinbisJames K. CarneyJonathan L. KuhnDavid A. Anderson
    • Can CinbisJames K. CarneyJonathan L. KuhnDavid A. Anderson
    • A61B5/00
    • A61N1/36557
    • A medical device system and associated method are used for monitoring a heart failure patient. A medical device for monitoring delivery of a therapy includes a sensor sensing an optical sensor signal corresponding to light attenuation by a volume of body tissue of a patient, a therapy delivery module to deliver a therapy, and a processor configured to compute a first tissue oxygenation measurement from the optical sensor signal prior to initiating delivery of the therapy, compute a second tissue oxygenation measurement from the optical sensor signal subsequent to initiating delivery of the therapy, compare the first and the second tissue oxygenation measurements, and determine whether the delivered therapy was successful in response to the first tissue oxygenation measurement and the second tissue oxygenation measurement.
    • 医疗器械系统和相关方法用于监测心力衰竭患者。 用于监测治疗递送的医疗装置包括传感器,其感测对应于患者的身体组织的体积的光衰减的光学传感器信号,用于递送治疗的治疗递送模块和被配置为计算第一组织氧合的处理器 在开始递送治疗之前从光学传感器信号进行的测量,在开始递送治疗之后从光学传感器信号计算第二组织氧合测量,比较第一和第二组织氧合测量,并确定递送的治疗是否为 成功地响应于第一次组织氧合测量和第二次组织氧合测量。
    • 8. 发明授权
    • Advanced spoofer mitigation and geolocation through spoofer tracking
    • 通过垃圾邮件跟踪来缓解和定位高级垃圾邮件
    • US07764224B1
    • 2010-07-27
    • US11441799
    • 2006-05-26
    • David A. Anderson
    • David A. Anderson
    • G01S1/00
    • G01S19/215G01S3/16G01S5/04G01S5/06G01S13/003G01S19/30G01S19/37
    • A GPS receiver employing advanced spoofer mitigation, geolocation and tracking capabilities through the use of a utility channel coupled in parallel to a tracking channel. The tracking channel tracks the direct signal while the utility channel tracks one or more spoofer signals. A signal from the primary channel is used by the utility channel to locate spoofer signals, with the primary channel operating independently of the utility channel. Three complementary spoofer mitigation methods are disclosed for identifying advanced repeaters and security-compromised spoofers, which may also be used for geolocation of such spoofers: (1) the consistency routine; (2) the nuller routine; and (3) the multiple antennas routine. An improved architecture is disclosed to allow easy upgrading and retrofitting of an existing GPS receiver.
    • GPS接收机通过使用与跟踪信道并行耦合的效用信道来采用先进的减震,地理定位和跟踪能力。 跟踪通道跟踪直达信号,而公用事业通道跟踪一个或多个扰频信号。 主通道的信号由公用通道用于定位扰频信号,其中主信道独立于公用信道工作。 公开了用于识别高级中继器和安全性受损的欺骗者的三种互补的消音方法,其也可以用于这种欺骗者的地理定位:(1)一致性例程; (2)空程序; 和(3)多天线例程。 公开了一种改进的架构,以允许轻松升级和改装现有的GPS接收机。