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Explicit Ensemble Mean Clock Synchronization for Optimal Atomic Time Scale Generation

Published 22 Apr 2025 in eess.SY and cs.SY | (2504.15540v1)

Abstract: This paper presents a novel theoretical framework for atomic time scale generation, called explicit ensemble mean synchronization, which unifies clock synchronization and time scale generation within a control-theoretic paradigm. By exploiting an observable canonical decomposition of a standard atomic clock ensemble model, the system is decomposed into two complementary components: the observable part, which represents the synchronization deviation, and the unobservable part, which captures the synchronization destination. Within this structure, we mathematically prove that standard Kalman filtering, widely used in current time scale generation, can be interpreted as a special case of the proposed framework that optimizes long-term frequency stability in terms of the Allan variance. Furthermore, by applying appropriate state feedback control to each component based on the Kalman filtering, both clock synchronization and optimal time scale generation are achieved within a unified framework. This framework provides a principled basis for robust timekeeping systems that goes beyond conventional approaches in both scope and performance.

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