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Discrete polar motion equations for high frequencies

Wilson, Clark R. / Chen, Jianli

Abstract We examine several digital filter methods designed to accurately estimate excitation axis variations from observed polar motion at frequencies exceeding 1 cycle per day. These methods are developed from a discrete time series filter equation originally presented in 1940 by Harold Jeffreys, and subsequently revised over the past two decades. The filters derived here provide improved amplitude accuracy at the highest frequencies now observable in space geodetic polar motion data.

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Discrete polar motion equations for high frequencies

Wilson, Clark R. / Chen, Jianli

Abstract We examine several digital filter methods designed to accurately estimate excitation axis variations from observed polar motion at frequencies exceeding 1 cycle per day. These methods are developed from a discrete time series filter equation originally presented in 1940 by Harold Jeffreys, and subsequently revised over the past two decades. The filters derived here provide improved amplitude accuracy at the highest frequencies now observable in space geodetic polar motion data.

Discrete polar motion equations for high frequencies

Wilson, Clark R. / Chen, Jianli

Abstract We examine several digital filter methods designed to accurately estimate excitation axis variations from observed polar motion at frequencies exceeding 1 cycle per day. These methods are developed from a discrete time series filter equation originally presented in 1940 by Harold Jeffreys, and subsequently revised over the past two decades. The filters derived here provide improved amplitude accuracy at the highest frequencies now observable in space geodetic polar motion data.

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Titel:

Discrete polar motion equations for high frequencies

Beteiligte:

Wilson, Clark R. (Autor:in) / Chen, Jianli (Autor:in)

Erschienen in:

Journal of Geodesy ; 70

Erscheinungsdatum:

1996

ISSN:

DOI:

https://doi.org/10.1007/BF00867866

Medientyp:

Aufsatz (Zeitschrift)

Format:

Print

Sprache:

Englisch

Schlagwörter:

Geodäsie , Geodynamik

Klassifikation:

BKL: 38.73 Geodäsie

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