IC SG9

Application of time-series analysis in geodesy

Chair: W. Kosek (Poland)
Affiliation:Space Research Centre, Polish Academy of Sciences

Introduction

Observations of the new space geodetic techniques deliver a global picture of dynamics of the Earth usually represented in the form of the time series which describe 1) changes of the surface geometry of the Earth due to horizontal and vertical deformations of the land surface, variations in the ocean surface and ice covers 2) the fluctuations in the orientation of the Earth divided into precession, nutation, polar motion and spin rate, and, 3) the variations of the Earth’s gravitational field expressed as gravity or geoid anomalies as well as the variations of the centre of mass of the Earth. The temporal variations of Earth rotation and gravity/geoid represent the total, integral effect of all mass exchange between all elements of Earth’s system including atmosphere, ocean and hydrology.

Different time series analysis methods are applied to analyze all these geodetic time series for better understanding of the relation between all elements of the Earth’s system as well as their geophysical causes. The interactions between different components of the Earth’s system are very complex so the nature of considered signals in the geodetic time series is mostly wideband, irregular and non stationary. Thus, it is necessary to apply time frequency analysis methods in order to analyze these time series in different frequency bands as well as to explain their relations to geophysical processes e.g. by computing time frequency coherence between Earth’s rotation or the gravity field data and data representing the mass exchange between the atmosphere, ocean and hydrology.

Other geodetic time series may include for example variations of site positions, tropospheric delay, ionospheric electron content, temporal variations of estimated orbit parameters. Time series analysis methods can be also applied to analyze data on the surface including maps of the gravity field, sea level and ionosphere as well as temporal variations of such surface data. The main problems to deal with concern estimation of deterministic (including trend and periodic variations) and stochastic (non periodic variations and random changes) components of the geodetic time series as well as application of digital filters for extracting components with chosen frequency bandwidth.

For coping with small geodetic samples one can apply simulation-based methods and if the data are sparse, Monte Carlo simulation or bootstrap technique may be useful.

Understanding the nature of geodetic time series is very important from the point of view of appropriate spectral analysis, filtration and prediction methods application.

Objectives

Study of the nature of geodetic time series to choose optimum time series analysis methods for filtration, spectral analysis, time-frequency analysis and prediction.

Study of the Earth’s rotation and the gravity field variations and their geophysical causes in different frequency bands.

Determination of the significance levels of the results obtained by different time series analysis methods and algorithms applied to geodetic time series.

Comparison of different time series analysis methods in order to point on their advantages and disadvantages.

Recommendations of different time series analysis methods for solving problems concerning different geodetic time series.

Program of activities

Launching of a web page with information concerning time series analysis and it application to geodetic time series with special emphasis on exchange of ideas, providing and updating bibliographic list of references of research results and relevant publications from different disciplines as well as unification of terminology applied in time series analysis.

Working meetings at the international symposia and presentation of research results at the appropriate sessions.

Membership

Wieslaw Kosek, Poland, chair
Michael Schmidt, Germany
Jan Vondrák, Czech Republic
Waldemar Popinski, Poland
Tomasz Niedzielski, Poland
Johannes Boehm, Germany
Rudolf Widmer-Schnidring, Germany