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    • 1. 发明申请
    • TIME-BASED IMAGING
    • 基于时间的成像
    • US20090163827A1
    • 2009-06-25
    • US12340889
    • 2008-12-22
    • Amiram GrinvaldDarin NelsonHarel Primack
    • Amiram GrinvaldDarin NelsonHarel Primack
    • A61B3/10
    • A61B3/1225
    • A method includes directing toward a portion of a subject's body a first pulse of electromagnetic energy. While the portion is in a functional state due to the first pulse, a second pulse is directed toward the portion. At a second-pulse time, reflected energy due to the second pulse is detected. While the portion is in a functional state due to the first and second pulses, a third pulse is directed toward the portion. At a third-pulse time, energy of the third pulse, reflected from the portion, is detected. In response to detecting the pulses at the second-pulse time and the third-pulse time, a characteristic of the portion is quantified resulting from (a) the functional state due to the first pulse and (b) the functional state due to the first and second pulses. A clinical state of the subject is identified. Other embodiments are described.
    • 一种方法包括向被摄体的一部分指向电磁能的第一脉冲。 当部分由于第一脉冲而处于功能状态时,第二脉冲被引向该部分。 在第二脉冲时间,检测到由于第二脉冲引起的反射能量。 当部分由于第一和第二脉冲而处于功能状态时,第三脉冲被引向该部分。 在第三脉冲时间,检测从该部分反射的第三脉冲的能量。 响应于检测在第二脉冲时间和第三脉冲时间的脉冲,该部分的特性由(a)由于第一脉冲引起的功能状态和(b)由于第一脉冲引起的功能状态而被定量 和第二脉冲。 确定该受试者的临床状态。 描述其他实施例。
    • 2. 发明授权
    • Time-based imaging
    • 基于时间的成像
    • US08403862B2
    • 2013-03-26
    • US12340889
    • 2008-12-22
    • Amiram GrinvaldDarin NelsonHarel Primack
    • Amiram GrinvaldDarin NelsonHarel Primack
    • A61B3/00A61B18/00A61B18/18A61B3/10
    • A61B3/1225
    • A method includes directing toward a portion of a subject's body a first pulse of electromagnetic energy. While the portion is in a functional state due to the first pulse, a second pulse is directed toward the portion. At a second-pulse time, reflected energy due to the second pulse is detected. While the portion is in a functional state due to the first and second pulses, a third pulse is directed toward the portion. At a third-pulse time, energy of the third pulse, reflected from the portion, is detected. In response to detecting the pulses at the second-pulse time and the third-pulse time, a characteristic of the portion is quantified resulting from (a) the functional state due to the first pulse and (b) the functional state due to the first and second pulses. A clinical state of the subject is identified. Other embodiments are described.
    • 一种方法包括向被摄体的一部分指向电磁能的第一脉冲。 当部分由于第一脉冲而处于功能状态时,第二脉冲被引向该部分。 在第二脉冲时间,检测到由于第二脉冲引起的反射能量。 当部分由于第一和第二脉冲而处于功能状态时,第三脉冲被引向该部分。 在第三脉冲时间,检测到从该部分反射的第三脉冲的能量。 响应于检测在第二脉冲时间和第三脉冲时间的脉冲,该部分的特性由(a)由于第一脉冲引起的功能状态和(b)由于第一脉冲引起的功能状态而被定量 和第二脉冲。 确定该受试者的临床状态。 描述其他实施例。
    • 8. 发明授权
    • Handheld probe for tube inspection using APR
    • 使用APR进行管检查的手持式探头
    • US08960007B2
    • 2015-02-24
    • US13403984
    • 2012-02-24
    • Dov FurmanHarel PrimackSilviu ZilbermanOded Barzelay
    • Dov FurmanHarel PrimackSilviu ZilbermanOded Barzelay
    • G01N29/00G01N29/22
    • G01N29/226G01N2291/044G01N2291/2636
    • Exemplary embodiments of a handheld probe (HHP) of an Acoustic pulse reflectometry (APR) system are disclosed. Embodiments of the HHP can comprise a loudspeaker and microphone that are vibration isolated from each other and from the tube under test. In some embodiments the microphone can be isolated from the housing of the HHP. In other embodiments the housing of the HHP can be isolated from the loudspeaker. In another embodiment the housing of the probe can be isolated from the tube under test. Yet, some embodiments combine all of this isolation options. In such embodiment the loudspeaker is isolated from the housing, the housing is isolated from the tube under test, and the microphone is isolated from the housing, and so on. Isolation can be achieved by using materials that absorb vibration, material such as but not limited to rubber, foam, silicone, etc.
    • 公开了声脉冲反射计(APR)系统的手持式探针(HHP)的示例性实施例。 HHP的实施例可以包括扬声器和麦克风,这些扬声器和麦克风彼此隔离并与被测试管隔离。 在一些实施例中,麦克风可以与HHP的壳体隔离。 在其他实施例中,HHP的外壳可以与扬声器隔离。 在另一个实施例中,探针的外壳可以与被测管隔离。 然而,一些实施例组合了所有这些隔离选项。 在这种实施例中,扬声器与外壳隔离,外壳与被测试管隔离,麦克风与外壳隔离,等等。 隔离可以通过使用吸收振动的材料,但不限于橡胶,泡沫,硅树脂等材料来实现。
    • 9. 发明申请
    • HANDHELD PROBE FOR TUBE INSPECTION USING APR
    • 使用APR进行管道检查的手柄探测器
    • US20120227501A1
    • 2012-09-13
    • US13403984
    • 2012-02-24
    • Dov FurmanHarel PrimackSilviu ZilbermanOded Barzelay
    • Dov FurmanHarel PrimackSilviu ZilbermanOded Barzelay
    • G01N29/00
    • G01N29/226G01N2291/044G01N2291/2636
    • Exemplary embodiments of a handheld probe (HHP) of an Acoustic pulse reflectometry (APR) system are disclosed. Embodiments of the HHP can comprise a loudspeaker and microphone that are vibration isolated from each other and from the tube under test. In some embodiments the microphone can be isolated from the housing of the HHP. In other embodiments the housing of the HHP can be isolated from the loudspeaker. In another embodiment the housing of the probe can be isolated from the tube under test. Yet, some embodiments combine all of this isolation options. In such embodiment the loudspeaker is isolated from the housing, the housing is isolated from the tube under test, and the microphone is isolated from the housing, and so on. Isolation can be achieved by using materials that absorb vibration, material such as but not limited to rubber, foam, silicone, etc.
    • 公开了声脉冲反射计(APR)系统的手持式探针(HHP)的示例性实施例。 HHP的实施例可以包括扬声器和麦克风,这些扬声器和麦克风彼此隔离并与被测试管隔离。 在一些实施例中,麦克风可以与HHP的壳体隔离。 在其他实施例中,HHP的外壳可以与扬声器隔离。 在另一个实施例中,探针的外壳可以与被测管隔离。 然而,一些实施例组合了所有这些隔离选项。 在这种实施例中,扬声器与外壳隔离,外壳与被测试管隔离,麦克风与外壳隔离,等等。 隔离可以通过使用吸收振动的材料,但不限于橡胶,泡沫,硅树脂等材料来实现。