Title :
Time signal distribution in communication networks based on synchronous digital hierarchy
Author :
Imaoka, Atsushi ; Kihara, Masami
Author_Institution :
NTT Opt. Network Syst. Labs., Kanagawa, Japan
fDate :
2/1/1997 12:00:00 AM
Abstract :
A new method that uses round-trip paths to accurately measure transmission delay for submicrosecond time synchronization in synchronous digital hierarchy (SDH) networks is proposed. Since the proposed system uses virtual container-3 (VC-3) signal as the time reference signals, existing SDH equipment can be used without any changes. The feature of this method is that it separately measures the initial round-trip path delay and subsequent variations in round-trip path delay. The initial uncertain delay due to the administrative unit-3 (AU-3) pointer operations in SDH equipment is determined by controlling the reference clock of the equipment. The characteristics of the equipment delay caused by the pointer operations are also described. In an experiment with actual SDH equipment, the error in initial delay determination was suppressed to 30 ns. The delay variation measurement of the round-trip path is not affected by the pointer operation in the proposed method. The precision of delay variation measurement can be better than 10 ns
Keywords :
delays; demultiplexing equipment; digital communication; multiplexing equipment; synchronous digital hierarchy; telecommunication equipment testing; telecommunication networks; time measurement; 10 ns; 30 ns; SDH equipment; SDH networks; VC-3 signal; administrative unit-3 pointer operations; communication networks; delay variation measurement; demultiplexer; equipment delay; experiment; multiplexer; pointer operations; reference clock control; submicrosecond time synchronization; synchronous digital hierarchy; time reference signals; time signal distribution; transmission delay measurement; virtual container-3 signal; Application software; Clocks; Communication networks; Computer network management; Delay effects; Frequency synchronization; Intelligent networks; Stability; Synchronous digital hierarchy; Timing;
Journal_Title :
Communications, IEEE Transactions on
