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1.发明公开DETECTION OF SCINTILLATIONS IN SIGNALS OF GLOBAL NAVIGATION SATELLITE SYSTEMS CAUSED BY LONOSPHERIC IRREGULARITIES 有权NACHWEIS VON SZINTILLATIONEN SIGNALEN GLOBALER NAVIGATIONSSATELLITENSYSTEME DURCHIONOSPHÄREN-UNREGELMÄSIGKEITEN
公开(公告)号:EP3030922A4
公开(公告)日:2017-04-26
申请号:EP13890904
申请日:2013-08-07
申请人: LLC TOPCON POSITIONING SYSTEMS , AVERIN SERGEY VLADISLAVOVICH , NEVZOROV ROMAN ANATOLYEVICH , PLENKIN ANDREY VALERIEVICH
摘要: A scintillation caused by ionospheric irregularities during Global Navigation Satellite System (GNSS) measurements is detected. A first input GNSS measurement corresponding to a navigation satellite and corresponding to a first carrier frequency and a second GNSS measurement corresponding to the navigation satellite and corresponding to a second carrier frequency, in which the second carrier frequency is different from the first carrier frequency, are received. A geometry-free combination (GFC) parameter based at least in part on the first input GNSS measurement, the second input GNSS measurement, the first carrier frequency, and the second carrier frequency is calculated. The occurrence of a scintillation caused by an ionospheric irregularity is determined based at least in part on the GFC parameter. In an embodiment of the invention, the dispersion of the GFC parameter over a specified time interval is determined. A scintillation is detected if the dispersion exceeds a specified threshold value.
摘要翻译: 检测全球导航卫星系统(GNSS)测量过程中由电离层不规则引起的闪烁。 对应于导航卫星且对应于导航卫星的第一载波频率和第二GNSS测量的第一输入GNSS测量值对应于其中第二载波频率不同于第一载波频率的第二载波频率, 接收。 计算至少部分基于第一输入GNSS测量结果,第二输入GNSS测量结果,第一载波频率和第二载波频率的几何无关组合(GFC)参数。 至少部分基于GFC参数来确定由电离层不规则性引起的闪烁的发生。 在本发明的一个实施例中,确定GFC参数在指定时间间隔内的分散。 如果色散超过指定的阈值,则检测闪烁。
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2.发明公开DETECTION OF SCINTILLATIONS IN SIGNALS OF GLOBAL NAVIGATION SATELLITE SYSTEMS CAUSED BY LONOSPHERIC IRREGULARITIES 有权信号全球定位系统中的NACHWEIS VON SZINTILLATION INDVIGATIONSSLENLLITENSYSTEME DURCHIONOSPHÄREN-UNREGELMÄSSIGKEITEN
公开(公告)号:EP3030922A1
公开(公告)日:2016-06-15
申请号:EP13890904.9
申请日:2013-08-07
申请人: LLC "Topcon Positioning Systems" , Averin, Sergey Vladislavovich , Nevzorov, Roman Anatolyevich , Plenkin, Andrey Valerievich
摘要: A scintillation caused by ionospheric irregularities during Global Navigation Satellite System (GNSS) measurements is detected. A first input GNSS measurement corresponding to a navigation satellite and corresponding to a first carrier frequency and a second GNSS measurement corresponding to the navigation satellite and corresponding to a second carrier frequency, in which the second carrier frequency is different from the first carrier frequency, are received. A geometry-free combination (GFC) parameter based at least in part on the first input GNSS measurement, the second input GNSS measurement, the first carrier frequency, and the second carrier frequency is calculated. The occurrence of a scintillation caused by an ionospheric irregularity is determined based at least in part on the GFC parameter. In an embodiment of the invention, the dispersion of the GFC parameter over a specified time interval is determined. A scintillation is detected if the dispersion exceeds a specified threshold value.
摘要翻译: 检测到全球导航卫星系统(GNSS)测量期间电离层不规则引起的闪烁。 对应于导航卫星并对应于与导航卫星对应的第一载波频率和对应于第二载波频率(其中第二载波频率不同于第一载波频率)的第二GNSS测量的第一输入GNSS测量是 接收。 至少部分地基于第一输入GNSS测量,第二输入GNSS测量,第一载波频率和第二载波频率来计算几何自由组合(GFC)参数。 至少部分地基于GFC参数确定由电离层不规则引起的闪烁的发生。 在本发明的实施例中,确定GFC参数在指定时间间隔内的分散。 如果色散超过规定的阈值,则检测闪烁。
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