Prototype of the DLR Operational Composite Clock: Methods and Test Cases

Abstract

The operational implementation of the ensemble Kalman filter Composite Clock (CC developed by K. R. Brown), is the subject of this paper. Although the mathematical background of the CC is well-known, its autonomous and robust operation in a clock laboratory requires further modifications of the CC. The suitable initialization of the first ensemble estimate is discussed. Due to the fact, that only difference measurements are available, there is a dimensional degree of freedom in the first as in the following ensemble estimates. Furthermore, to guarantee a robust, consistent, and autonomous estimation of the ensemble clocks, a consistency check is described. It outputs a so-called consistency matrix which describes the active and non-active clocks. Since the identified active clocks can change from measurement to measurement, the corresponding Kalman filter (KF) parameters are adapted in a consistent way. Finally, the non-active clocks are estimated based on the KF output. The performance of the OCC using an ensemble of five DLR laboratory clocks, measured over a period of 1 year, is outlined. The clock ensemble consists of three high-performance cesium clocks (HP5071A), an active H-maser (CH1-75), and a GPS-disciplined Rb clock. Although miscellaneous anomalies like phase steps, outliers, and clock exclusions arise, the OCC autonomously processes the five ensemble clocks and establishes a robust system time. Analysis results of this ensemble with different types of clocks when applying the OCC are presented.

Document Details

Document Type

Technical Report

Publication Date

Nov 01, 2009

Accession Number

ADA518046

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