參考文獻 |
[1] D.W. Allan and M.A. Weiss, “Accurate time and frequency transfer during common view of a GPS satellite,” in Proc. 34th Ann. Symposium on Frequency Control, pp. 334-346, May 1980.
[2] “Timing requirements at the output of primary reference clocks suitable for plesiochronous operation of international digital links,” ITU-T Recommendation G.811.
[3] J.E. Abate, et al, “AT&T’s new approach to the synchronization of telecommunication networks,” IEEE Communications Magazine, vol. 27, no. 4, pp. 35-45, April 1989.
[4] W. Lewandowski, J. Azoubib, and W.J. Klepczynski, “GPS: primary tool for time transfer,” Proc. of the IEEE, vol. 87, no.1, pp. 163-172, Jan. 1999.
[5] M.A. Lombardi, Tutorial on frequency calibrations and time transfer, NIST Time and Frequency Division.
[6] J. Rutman and F.L. Walls, “Characterization of frequency stability in precision frequency sources,” Proc. of the IEEE, vol. 79, no. 6, pp. 952-960, June 1991.
[7] Samuel R. Stein, Frequency and Time—Their Measurement and Characterization, NIST, Characterization of Clocks and Oscillators, pp TN-61, March, 1990.
[8] James A. Barnes, Andrew R. Chi, Characterization of Frequency Stability, NIST, Characterization of Clocks and Oscillators, pp. TN-146, March, 1990.
[9] Study Programme, Characterization of frequency and phase noise, NIST, Characterization of Clocks and Oscillators, pp. TN-162, March, 1990.
[10] J.J. Spilker, Jr., “GPS signal structure and performance characteristics,” Navigation, vol. 25, no. 2, pp.121-122, Summer 1978.
[11] R.J. Miliken and C.J. Zoller, “Principle of operation of NAVSTAR and System Characteristics,” Navigation, vol. 25. no. 2, p.121. Summer 1978.
[12] N Ashby and D.W. Allan, “Practical implications of relativity for a global coordinate time scale,” Radio Science, vol. 14, no. 4, pp. 649-669, 1979.
[13] Wlodzimierz Lewandowski and Claudine Thomas, “GPS Time Transfer,” Proc. 34th Annual Symp. On Frequency Control, pp.334-346, May 1980.
[14] P.F. MacDoran, “Satellite emission radio inerferometric earth surveying, SERIES—GPS geodetic system,” Bull. Geodesique, 1979.
[15] AT&T, “Effects of Synchronization Slips,” ITU-T Contribution COM SpD-TD, NO.32, Geneva, November, 1969.
[16] J. E. Abate, and H. Drucker, “The Effect of Slips on Facsimile Transmission,” IEEE International Conference on Communications, pp. 1022-1025, 1988.
[17] H. Drucker, and A.C. Morton, “The Effect of Slips on Data Modems,” IEEE International Conference on Communications CH2424-0/87/0000-0409 1987.
[18] J. E. Abate, et al, “AT&T’s New Approach to the Synchronization of Telecommunication Networks,” IEEE Communications Magazine, Vol. 27, No. 4, April 1989.
[19] K. Inagaki, et al, “International Connection of Plesiochronous Networks Via TDMA Satellite Link,” International Conference on Communications 1982, IEEE, 0536-1486/82/0000-02221.
[20] M. Decina and Umberto de Julio, “Performance of Integrated Digital Networks: International Standards,” IEEE International Conference on Communications 0536-1486/82/0000-0063 1982.
[21]“Synchronization Interface Standards for Digital Networks,” American National Standard for Telecommunications, ANSI T1.101, 1994.
[22] “The Control of Jitter and Wander Within Syncronization Networks,” European Telecommunication Standards, Draft ETS DE/TM-3017.
[23] “The control of jitter and wander within digital networks which are based on the 1544 kbit/s hierarchies,” ITU-T Recommendation G.824, 1987
[24] “Standard Clock Testing Methodology,” ITU-T COM XVIII D.1378, 1987.
[25] D.W. Allan, clocks and oscillators, “Time and frequency (time-domain) characterization, estimation, and prediction of precision,” IEEE trans. On Ultrasonics, Ferroelectrics, and Frequency Control, vol. UFFC-34, no. 6, pp. 647-654, Nov. 1987.
[26] J.A. Barnes, “The measurement of linear frequency drift in oscillators,” Proc. 15th Annual PTTI Meeting, pp. 551-579, 1983.
[27] J.A. Davis and J.M. Furlong, “Report on the study to determine the suitability of GPS disciplined oscillators as time and frequency standards traceable to the UK national time scale UTC(NPL),” Center for Time Metrology, National Physical Laboratory, NPL Report no. CTM-1, Oct. 1997.
[28] C. Hackman, S.R. Jefferts, and T.E. Parker, “Common-clock two-way satellite time transfer experiments,” Proc. 49th Annual Symp. Frequency Control, pp. 275-281, 1995.
[29] S.R. Jefferts, M.A. Weiss, J. Levine, S. Dilla, E.W. Bell, and T.E. Parker, “Two-way time and frequency transfer using optical fibers,” IEEE Tran. Instrumentation and Measurement, 46(2), pp.209-211, Apr. 1997.
[30] D.W. Allan, “Time and frequency (time-domain) characterization, estimation, and prediction of precision clocks and oscillators,” IEEE Trans. Ultrasonics, Ferroelectrics, and Frequency Control, 34(6), pp.647-654, Nov. 1987.
[31] “General requirements for the competence of testing and calibration laboratories,” ISO/IEC 17025, 1999.
[32] L.S. Cutler and C.L. Searle, “Some aspects of the theory and measurement of frequency fluctuations in frequency standards,” Proceedings of the IEEE, 54(2), pp.136-154, Feb. 1966.
[33] P. Lesage and C. Audoin, “Characterization and measurement of time and frequency stability,” Radio Science, 14(4), pp. 521-539, 1979.
[34] P. Lesage and T. Ayi, “Characterization of frequency stability: analysis of the modified Allan variance and properties of its estimate,” IEEE Trans. Instrumentation and Measurements, 33(4), pp. 332-336, Dec. 1984.
[35] “Selection and use of precise frequency and time systems,” International Telecommunication Union, Handbook, 1997.
[36] M. J. Klein and R. Urbansky, “Network synchronization — A challenge for SDH/SONET?,” IEEE Commun. Mag., pp.42-50, 1993.
[37] J. C. Bellamy, “Digital network synchronization,” IEEE Commun. Mag., Vol. 33, pp.70-83, 1995.
[38] “Digital hierarchy bit rates,” ITU-T Rec. G.702, 1988.
[39] “Synchronous digital hierarchy bit rates,” ITU-T Rec. G.707, 1993.
[40] R. F. Bridge, S. Bily, J. Klass, and R. Taylor, “Jitter attenuation in T1 networks,” IEEE ICC’90, pp. 685-689, 1990.
[41] H. Sari and G. Karam, “Cancellation of pointer adjustment jitter in SDH networks,” IEEE Trans. Commun. Vol. 42, No. 12, pp.3200-3207 , 1994.
[42] “The control of jitter and wander within digital networks which are based on the 2048 k bit/s hierarchy,” ITU-T Rec. G.823, 1993.
[43] M. Kihara and A. Imaoka, “SDH-based time and frequency transfer system,” Proc. of the ninth European and Time Forum, pp. 317-322, 1995.
Bibliography
[1] D.W. Allan and M.A. Weiss, “Accurate time and frequency transfer during common view of a GPS satellite,” in Proc. 34th Ann. Symposium on Frequency Control, pp. 334-346, May 1980.
[2] “Timing requirements at the output of primary reference clocks suitable for plesiochronous operation of international digital links,” ITU-T Recommendation G.811.
[3] J.E. Abate, et al, “AT&T’s new approach to the synchronization of telecommunication networks,” IEEE Communications Magazine, vol. 27, no. 4, pp. 35-45, April 1989.
[4] W. Lewandowski, J. Azoubib, and W.J. Klepczynski, “GPS: primary tool for time transfer,” Proc. of the IEEE, vol. 87, no.1, pp. 163-172, Jan. 1999.
[5] M.A. Lombardi, Tutorial on frequency calibrations and time transfer, NIST Time and Frequency Division.
[6] J. Rutman and F.L. Walls, “Characterization of frequency stability in precision frequency sources,” Proc. of the IEEE, vol. 79, no. 6, pp. 952-960, June 1991.
[7] Samuel R. Stein, Frequency and Time—Their Measurement and Characterization, NIST, Characterization of Clocks and Oscillators, pp TN-61, March, 1990.
[8] James A. Barnes, Andrew R. Chi, Characterization of Frequency Stability, NIST, Characterization of Clocks and Oscillators, pp. TN-146, March, 1990.
[9] Study Programme, Characterization of frequency and phase noise, NIST, Characterization of Clocks and Oscillators, pp. TN-162, March, 1990.
[10] J.J. Spilker, Jr., “GPS signal structure and performance characteristics,” Navigation, vol. 25, no. 2, pp.121-122, Summer 1978.
[11] R.J. Miliken and C.J. Zoller, “Principle of operation of NAVSTAR and System Characteristics,” Navigation, vol. 25. no. 2, p.121. Summer 1978.
[12] N Ashby and D.W. Allan, “Practical implications of relativity for a global coordinate time scale,” Radio Science, vol. 14, no. 4, pp. 649-669, 1979.
[13] Wlodzimierz Lewandowski and Claudine Thomas, “GPS Time Transfer,” Proc. 34th Annual Symp. On Frequency Control, pp.334-346, May 1980.
[14] P.F. MacDoran, “Satellite emission radio inerferometric earth surveying, SERIES—GPS geodetic system,” Bull. Geodesique, 1979.
[15] AT&T, “Effects of Synchronization Slips,” ITU-T Contribution COM SpD-TD, NO.32, Geneva, November, 1969.
[16] J. E. Abate, and H. Drucker, “The Effect of Slips on Facsimile Transmission,” IEEE International Conference on Communications, pp. 1022-1025, 1988.
[17] H. Drucker, and A.C. Morton, “The Effect of Slips on Data Modems,” IEEE International Conference on Communications CH2424-0/87/0000-0409 1987.
[18] J. E. Abate, et al, “AT&T’s New Approach to the Synchronization of Telecommunication Networks,” IEEE Communications Magazine, Vol. 27, No. 4, April 1989.
[19] K. Inagaki, et al, “International Connection of Plesiochronous Networks Via TDMA Satellite Link,” International Conference on Communications 1982, IEEE, 0536-1486/82/0000-02221.
[20] M. Decina and Umberto de Julio, “Performance of Integrated Digital Networks: International Standards,” IEEE International Conference on Communications 0536-1486/82/0000-0063 1982.
[21]“Synchronization Interface Standards for Digital Networks,” American National Standard for Telecommunications, ANSI T1.101, 1994.
[22] “The Control of Jitter and Wander Within Syncronization Networks,” European Telecommunication Standards, Draft ETS DE/TM-3017.
[23] “The control of jitter and wander within digital networks which are based on the 1544 kbit/s hierarchies,” ITU-T Recommendation G.824, 1987
[24] “Standard Clock Testing Methodology,” ITU-T COM XVIII D.1378, 1987.
[25] D.W. Allan, clocks and oscillators, “Time and frequency (time-domain) characterization, estimation, and prediction of precision,” IEEE trans. On Ultrasonics, Ferroelectrics, and Frequency Control, vol. UFFC-34, no. 6, pp. 647-654, Nov. 1987.
[26] J.A. Barnes, “The measurement of linear frequency drift in oscillators,” Proc. 15th Annual PTTI Meeting, pp. 551-579, 1983.
[27] J.A. Davis and J.M. Furlong, “Report on the study to determine the suitability of GPS disciplined oscillators as time and frequency standards traceable to the UK national time scale UTC(NPL),” Center for Time Metrology, National Physical Laboratory, NPL Report no. CTM-1, Oct. 1997.
[28] C. Hackman, S.R. Jefferts, and T.E. Parker, “Common-clock two-way satellite time transfer experiments,” Proc. 49th Annual Symp. Frequency Control, pp. 275-281, 1995.
[29] S.R. Jefferts, M.A. Weiss, J. Levine, S. Dilla, E.W. Bell, and T.E. Parker, “Two-way time and frequency transfer using optical fibers,” IEEE Tran. Instrumentation and Measurement, 46(2), pp.209-211, Apr. 1997.
[30] D.W. Allan, “Time and frequency (time-domain) characterization, estimation, and prediction of precision clocks and oscillators,” IEEE Trans. Ultrasonics, Ferroelectrics, and Frequency Control, 34(6), pp.647-654, Nov. 1987.
[31] “General requirements for the competence of testing and calibration laboratories,” ISO/IEC 17025, 1999.
[32] L.S. Cutler and C.L. Searle, “Some aspects of the theory and measurement of frequency fluctuations in frequency standards,” Proceedings of the IEEE, 54(2), pp.136-154, Feb. 1966.
[33] P. Lesage and C. Audoin, “Characterization and measurement of time and frequency stability,” Radio Science, 14(4), pp. 521-539, 1979.
[34] P. Lesage and T. Ayi, “Characterization of frequency stability: analysis of the modified Allan variance and properties of its estimate,” IEEE Trans. Instrumentation and Measurements, 33(4), pp. 332-336, Dec. 1984.
[35] “Selection and use of precise frequency and time systems,” International Telecommunication Union, Handbook, 1997.
[36] M. J. Klein and R. Urbansky, “Network synchronization — A challenge for SDH/SONET?,” IEEE Commun. Mag., pp.42-50, 1993.
[37] J. C. Bellamy, “Digital network synchronization,” IEEE Commun. Mag., Vol. 33, pp.70-83, 1995.
[38] “Digital hierarchy bit rates,” ITU-T Rec. G.702, 1988.
[39] “Synchronous digital hierarchy bit rates,” ITU-T Rec. G.707, 1993.
[40] R. F. Bridge, S. Bily, J. Klass, and R. Taylor, “Jitter attenuation in T1 networks,” IEEE ICC’90, pp. 685-689, 1990.
[41] H. Sari and G. Karam, “Cancellation of pointer adjustment jitter in SDH networks,” IEEE Trans. Commun. Vol. 42, No. 12, pp.3200-3207 , 1994.
[42] “The control of jitter and wander within digital networks which are based on the 2048 k bit/s hierarchy,” ITU-T Rec. G.823, 1993.
[43] M. Kihara and A. Imaoka, “SDH-based time and frequency transfer system,” Proc. of the ninth European and Time Forum, pp. 317-322, 1995. |