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公开(公告)号:US09261583B2
公开(公告)日:2016-02-16
申请号:US13755388
申请日:2013-01-31
CPC分类号: G01S7/025 , G01S7/4004 , G01S7/4021 , G01S7/411 , G01S13/95 , Y02A90/18
摘要: A dual polarization radar system is calibrated based on real-time data measurements, such as measured horizontal and vertical reflectivities, ZH and ZV. In this regard, the radar system analyzes the reflected power measurements to identify which measurements are associated with reflections from a respective spherical object. Using such measurements, the system determines a system differential reflectivity value, and combines such value with reflected power measurements for calibration. Since the calibration is based on real-time data measurements, the calibration process may run simultaneously with the collection of weather data. Thus, it is unnecessary to suspend weather monitoring activities in order to perform the calibration, and the calibration can be run as often as is desired without interfering with such weather monitoring activities. Further, the calibration process is immune to the weather events within range of the radar system. Accordingly, it is possible for the calibration to be performed at any time and without interfering with the weather monitoring activities regardless of the types of weather events occurring within the vicinity of the radar system.
摘要翻译: 基于实时数据测量,例如测量的水平和垂直反射率,ZH和ZV,校准双极化雷达系统。 在这方面,雷达系统分析反射功率测量,以确定哪些测量与相应的球形物体的反射相关联。 使用这样的测量,系统确定系统差分反射率值,并将这些值与用于校准的反射功率测量结合。 由于校准基于实时数据测量,校准过程可以与天气数据的收集同时运行。 因此,为了执行校准,不需要暂停天气监视活动,并且可以根据需要频繁地进行校准,而不会干扰这种天气监视活动。 此外,校准过程不受雷达系统范围内的天气事件的影响。 因此,无论在雷达系统附近发生的天气事件的种类如何,都可以随时执行校准,而不干扰天气监视活动。
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公开(公告)号:US20140210661A1
公开(公告)日:2014-07-31
申请号:US13755388
申请日:2013-01-31
IPC分类号: G01S7/40
CPC分类号: G01S7/025 , G01S7/4004 , G01S7/4021 , G01S7/411 , G01S13/95 , Y02A90/18
摘要: A dual polarization radar system is calibrated based on real-time data measurements, such as measured horizontal and vertical reflectivities, ZH and ZV. In this regard, the radar system analyzes the reflected power measurements to identify which measurements are associated with reflections from a respective spherical object. Using such measurements, the system determines a system differential reflectivity value, and combines such value with reflected power measurements for calibration. Since the calibration is based on real-time data measurements, the calibration process may run simultaneously with the collection of weather data. Thus, it is unnecessary to suspend weather monitoring activities in order to perform the calibration, and the calibration can be run as often as is desired without interfering with such weather monitoring activities. Further, the calibration process is immune to the weather events within range of the radar system. Accordingly, it is possible for the calibration to be performed at any time and without interfering with the weather monitoring activities regardless of the types of weather events occurring within the vicinity of the radar system.
摘要翻译: 基于实时数据测量,例如测量的水平和垂直反射率,ZH和ZV,校准双极化雷达系统。 在这方面,雷达系统分析反射功率测量,以确定哪些测量与相应的球形物体的反射相关联。 使用这样的测量,系统确定系统差分反射率值,并将这些值与用于校准的反射功率测量结合。 由于校准基于实时数据测量,校准过程可以与天气数据的收集同时运行。 因此,为了执行校准,不需要暂停天气监视活动,并且可以根据需要频繁地进行校准,而不会干扰这种天气监视活动。 此外,校准过程不受雷达系统范围内的天气事件的影响。 因此,无论在雷达系统附近发生的天气事件的种类如何,都可以随时执行校准,而不干扰天气监视活动。
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公开(公告)号:US20120256785A1
公开(公告)日:2012-10-11
申请号:US13441419
申请日:2012-04-06
IPC分类号: G01S7/40
CPC分类号: G01S13/951 , G01S7/025 , G01S7/4021 , Y02A90/18
摘要: A dual polarization radar system is calibrated based on real-time data measurements, such as measured horizontal and vertical reflectivities, ZH and ZV. In this regard, the radar system analyzes the reflected power measurements to identify which measurements are associated with reflections from a respective spherical object. Using such measurements, the system determines a system differential reflectivity value, and combines such value with reflected power measurements for calibration. Since the calibration is based on real-time data measurements, the calibration process may run simultaneously with the collection of weather data. Further, the calibration process is immune to the weather events within range of the radar system. Accordingly, it is possible for the calibration to be performed at any time and without interfering with the weather monitoring activities regardless of the types of weather events occurring within the vicinity of the radar system.
摘要翻译: 基于实时数据测量,例如测量的水平和垂直反射率,ZH和ZV,校准双极化雷达系统。 在这方面,雷达系统分析反射功率测量,以确定哪些测量与相应的球形物体的反射相关联。 使用这样的测量,系统确定系统差分反射率值,并将这些值与用于校准的反射功率测量结合。 由于校准基于实时数据测量,校准过程可以与天气数据的收集同时运行。 此外,校准过程不受雷达系统范围内的天气事件的影响。 因此,无论在雷达系统附近发生的天气事件的种类如何,都可以随时执行校准,而不干扰天气监视活动。
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公开(公告)号:US09097805B2
公开(公告)日:2015-08-04
申请号:US13441419
申请日:2012-04-06
CPC分类号: G01S13/951 , G01S7/025 , G01S7/4021 , Y02A90/18
摘要: A dual polarization radar system is calibrated based on real-time data measurements, such as measured horizontal and vertical reflectivities, ZH and ZV. In this regard, the radar system analyzes the reflected power measurements to identify which measurements are associated with reflections from a respective spherical object. Using such measurements, the system determines a system differential reflectivity value, and combines such value with reflected power measurements for calibration. Since the calibration is based on real-time data measurements, the calibration process may run simultaneously with the collection of weather data. Further, the calibration process is immune to the weather events within range of the radar system. Accordingly, it is possible for the calibration to be performed at any time and without interfering with the weather monitoring activities regardless of the types of weather events occurring within the vicinity of the radar system.
摘要翻译: 基于实时数据测量,例如测量的水平和垂直反射率,ZH和ZV,校准双极化雷达系统。 在这方面,雷达系统分析反射功率测量,以确定哪些测量与相应的球形物体的反射相关联。 使用这样的测量,系统确定系统差分反射率值,并将这些值与用于校准的反射功率测量结合。 由于校准基于实时数据测量,校准过程可以与天气数据的收集同时运行。 此外,校准过程不受雷达系统范围内的天气事件的影响。 因此,无论在雷达系统附近发生的天气事件的种类如何,都可以随时执行校准,而不干扰天气监视活动。
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公开(公告)号:US20160025841A9
公开(公告)日:2016-01-28
申请号:US13755388
申请日:2013-01-31
IPC分类号: G01S7/40
CPC分类号: G01S7/025 , G01S7/4004 , G01S7/4021 , G01S7/411 , G01S13/95 , Y02A90/18
摘要: A dual polarization radar system is calibrated based on real-time data measurements, such as measured horizontal and vertical reflectivities, ZH and ZV. In this regard, the radar system analyzes the reflected power measurements to identify which measurements are associated with reflections from a respective spherical object. Using such measurements, the system determines a system differential reflectivity value, and combines such value with reflected power measurements for calibration. Since the calibration is based on real-time data measurements, the calibration process may run simultaneously with the collection of weather data. Thus, it is unnecessary to suspend weather monitoring activities in order to perform the calibration, and the calibration can be run as often as is desired without interfering with such weather monitoring activities. Further, the calibration process is immune to the weather events within range of the radar system. Accordingly, it is possible for the calibration to be performed at any time and without interfering with the weather monitoring activities regardless of the types of weather events occurring within the vicinity of the radar system.
摘要翻译: 基于实时数据测量,例如测量的水平和垂直反射率,ZH和ZV,校准双极化雷达系统。 在这方面,雷达系统分析反射功率测量,以确定哪些测量与相应的球形物体的反射相关联。 使用这样的测量,系统确定系统差分反射率值,并将这些值与用于校准的反射功率测量结合。 由于校准基于实时数据测量,校准过程可以与天气数据的收集同时运行。 因此,为了执行校准,不需要暂停天气监视活动,并且可以根据需要频繁地进行校准,而不会干扰这种天气监视活动。 此外,校准过程不受雷达系统范围内的天气事件的影响。 因此,无论在雷达系统附近发生的天气事件的种类如何,都可以随时执行校准,而不干扰天气监视活动。
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