Title :
Minimax optimum joint frequency and phase recovery in IEEE 1588
Author :
Guruswamy, Anand ; Blum, Rick S. ; Kishore, Shalinee ; Bordogna, Mark
Author_Institution :
Dept. of Electr. & Comput. Eng., Lehigh Univ., Bethlehem, PA, USA
Abstract :
In the IEEE 1588 Precision Time Protocol (PTP), the recovery of clock frequency and phase from packet timestamps must be modeled as a statistical estimation problem, due to the random nature of end-to-end delays that is inherent to packet-switched networks. Recently, a new minimax optimum estimator for phase offset estimation was proposed by the authors. This approach assumes that perfect frequency synchronization is already available at the slave clock. In this paper, we show that when perfect frequency synchronization is unavailable, this estimator can be extended to jointly estimate clock phase and frequency offsets. The mean squared error of these estimators can be used to obtain fundamental limits on synchronization accuracy in such scenarios. Simulation results indicate that the proposed estimators provide significant performance benefits over conventional frequency and phase estimation techniques.
Keywords :
frequency estimation; mean square error methods; minimax techniques; packet switching; phase estimation; statistical analysis; synchronisation; IEEE 1588; PTP; end-to-end delay; frequency offset estimation; mean squared error; minimax optimum joint frequency and phase recovery; packet switched network; packet timestamp; perfect frequency synchronization; phase offset estimation; precision time protocol; statistical estimation problem; Delays; Estimation; Frequency estimation; Load modeling; Protocols; Synchronization; Time-frequency analysis; Frequency Synchronization; IEEE 1588; Minimax Estimation; Phase Synchronization;
Conference_Titel :
Signal and Information Processing (ChinaSIP), 2015 IEEE China Summit and International Conference on
Conference_Location :
Chengdu
DOI :
10.1109/ChinaSIP.2015.7230499
