Quantifying the contribution of nonlinear interactions to storm tide simulations during a super typhoon event

In this paper, we detected and analyzed ionospheric anomalies during the 2016 super typhoons Megi and Meranti using the sliding interquartile range method applied to the ionospheric total electron content (TEC) grid data from the Global Ionospheric Model (GIM) provided by the Center for Orbit Determination in Europe (CODE). We found that ionospheric TEC anomalies occurred 2 days before the origination of super typhoon Megi. The anomalies occurred from 02:00 to 12:00 local time over a period of 10 h, with a maximum outlier of 12 TEC units over the typhoon center. Anomalies occurred in the ionosphere over both the area near the typhoon center and the corresponding equatorial magnetic conjugate region. The anomalies in both areas showed approximately the same trends. It is very likely that the disturbances from the ionospheric anomalies over the typhoon center were one of the precursors for the typhoon event. Similar ionospheric anomalies also occurred in the ionosphere 2 days before the formation and development of super typhoon Meranti...

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Nonlinear Interactions Between Relativistic Electrons and EMIC Waves in Magnetospheric Warm Plasma Environments

Journal of Geophysical Research Space Physics ◽

10.1029/2020ja028089 ◽

2020 ◽

Vol 125 (12) ◽

Author(s):

Jiang Yu ◽

L. Y. Li ◽

Jun Cui ◽

J. B. Cao ◽

Jing Wang ◽

...

Keyword(s):

Relativistic Electrons ◽

Nonlinear Interactions ◽

Warm Plasma ◽

Emic Waves

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Nonlinear Interactions between Signals and Parameters in Robust Adaptive Control

10.23919/acc.1990.4790903 ◽

1990 ◽

Author(s):

Gonzalo J. Rey ◽

C. Richard Johnson ◽

Robert R. Bitmead

Keyword(s):

Adaptive Control ◽

Robust Adaptive Control ◽

Nonlinear Interactions ◽

Robust Adaptive

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Analysis and prediction of storm water levels in Delaware inland bays

Shore & Beach ◽

10.34237/1008723 ◽

2019 ◽

pp. 29-35

Author(s):

Michele Strazzella ◽

Nobuhisa Kobayashu ◽

Tingting Zhu

Keyword(s):

Analytical Model ◽

Tide Gauge ◽

Hurricane Sandy ◽

Water Levels ◽

Tide Gauges ◽

Storm Tide ◽

Barrier Beach ◽

Wave Overtopping ◽

Inland Bays ◽

Damping Parameter

A simple approach based on an analytical model and available tide gauge data is proposed for the analysis of storm tide damping inside inland bays with complex bathymetry and for the prediction of peak water levels at gauge locations during storms. The approach was applied to eight tide gauges in the vicinity of inland bays in Delaware. Peak water levels at the gauge locations were analyzed for 34 storms during 2005-2017. A damping parameter in the analytical model was calibrated for each bay gauge. The calibrated model predicted the peak water levels within errors of about 0.2 m except for Hurricane Sandy in 2012. The analytical model including wave overtopping was used to estimate the peak wave overtopping rate over the barrier beach from the measured peak water level in the adjacent bay.

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