Evaluation of linear Kalman filter processing geodetic kinematic measurements |
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Authors: | Sonja Bogatin, Karl Foppe, Peter Wasmeier, Thomas A. Wunderlich, Thomas Sch fer,Du an Kogoj |
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Affiliation: | aFaculty of Civil and Geodetic Engineering, Jamova 2, 1000 Ljubljana, Slovenia bTechnical University Munich, Arcisstraße 21, D-80290 Munich, Germany |
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Abstract: | The purpose of this paper is to assess the efficiency of the linear Kalman filter as a method for the estimation of kinematic process observed with electronic tacheometer. On the assumption that the kinematic process is observed with only one measurement system there is no redundancy of the measurements. For evaluation of the unknown system state and its statistics in real time, other methods such as filters have to be used instead of classical geodetic adjustment. In this contribution, the efficiency of the three-dimensional linear Kalman filter model, i.e., continuous Wiener process acceleration model, in combination with the law on transfer of variances and covariances, is controlled using a known reference trajectory and statistical tests. The results of numerical tests confirmed the appropriateness of the model to evaluate geodetic kinematic measurements, where no redundant observations are available. |
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Keywords: | Continuous Wiener process acceleration model Electronic tacheometer Kalman filter Kinematic process Law on transfer of variances and covariances Measurement noise Process noise System state |
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