A model-based approach to clock synchronization

In a network of clocks, we consider a given reference node to determine the time evolution t. We introduce and analyze a stochastic model for clocks, in which the relative speedup of a clock, called the skew, is characterized by some given stochastic process. We study the problem of synchronizing cl...

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Hauptverfasser:	Freris, N.M., Borkar, V.S., Kumar, P.R.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Clock Offsets Clock Skews Clock Synchronization Clocks Delay estimation Displays Distributed control Distributed Systems Filtering algorithms Filtering and Estimation Maximum likelihood detection Network Delays Networked Control Nonlinear filters Sensor Networks Stochastic processes Synchronization Velocity measurement
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creator	Freris, N.M. Borkar, V.S. Kumar, P.R.
description	In a network of clocks, we consider a given reference node to determine the time evolution t. We introduce and analyze a stochastic model for clocks, in which the relative speedup of a clock, called the skew, is characterized by some given stochastic process. We study the problem of synchronizing clocks in a network, which amounts to estimating the instantaneous relative skews and relative offsets by exchange of time-stamped packets across the links of the network. We present a scheme for obtaining measurements in a communication link. We develop an algorithm for optimal filtering of measurements across a link (i; j) in order to estimate the logarithm of the relative speedup of node j with respect to node i, and we further study some implementation issues. We also present a scheme for pairwise offset estimation based on skew estimates. We study the properties of our algorithms and provide theoretical guarantees on their performance. We also develop an online centralized model-based asynchronous algorithm for optimal filtering of the time-stamps in the entire network, and an efficient distributed suboptimal scheme.
doi_str_mv	10.1109/CDC.2009.5399516
format	Conference Proceeding
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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Clock Offsets Clock Skews Clock Synchronization Clocks Delay estimation Displays Distributed control Distributed Systems Filtering algorithms Filtering and Estimation Maximum likelihood detection Network Delays Networked Control Nonlinear filters Sensor Networks Stochastic processes Synchronization Velocity measurement
title	A model-based approach to clock synchronization
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