Frequency-domain conditions for cycle-slipping in discrete systems with periodic nonlinearity

Standard

Frequency-domain conditions for cycle-slipping in discrete systems with periodic nonlinearity. / Smirnova, V.B.; Utina, N.V.; Shepeljavyi, A.I.

2003 IEEE International Workshop on Workload Characterization . Institute of Electrical and Electronics Engineers Inc., 2003. p. 607-610.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Research

Harvard

Smirnova, VB, Utina, NV & Shepeljavyi, AI 2003, Frequency-domain conditions for cycle-slipping in discrete systems with periodic nonlinearity. in 2003 IEEE International Workshop on Workload Characterization . Institute of Electrical and Electronics Engineers Inc., pp. 607-610, International Workshop on Workload Characterization, St. Petersburg, Russian Federation, 20/08/03.

APA

Smirnova, V. B., Utina, N. V., & Shepeljavyi, A. I. (2003). Frequency-domain conditions for cycle-slipping in discrete systems with periodic nonlinearity. In 2003 IEEE International Workshop on Workload Characterization (pp. 607-610). Institute of Electrical and Electronics Engineers Inc..

Vancouver

Smirnova VB, Utina NV, Shepeljavyi AI. Frequency-domain conditions for cycle-slipping in discrete systems with periodic nonlinearity. In 2003 IEEE International Workshop on Workload Characterization . Institute of Electrical and Electronics Engineers Inc. 2003. p. 607-610

Author

Smirnova, V.B. ; Utina, N.V. ; Shepeljavyi, A.I. / Frequency-domain conditions for cycle-slipping in discrete systems with periodic nonlinearity. 2003 IEEE International Workshop on Workload Characterization . Institute of Electrical and Electronics Engineers Inc., 2003. pp. 607-610

BibTeX

@inproceedings{6dd0a5017fda44c4bfc22e1bd408bd79,

title = "Frequency-domain conditions for cycle-slipping in discrete systems with periodic nonlinearity",

abstract = "The property that the phase-error /spl sigma/(t) increases at least by k/spl Delta/, where k is an integer and /spl Delta/ is the period of the nonlinearity, when t tends to infinity, is called in communication systems {"}cycle-slipping{"}. For the case of continuous synchronization systems this property is considered. In this paper we extend the analysis to discrete synchronization systems.",

author = "V.B. Smirnova and N.V. Utina and A.I. Shepeljavyi",

note = "V. B. Smirnova, N. V. Utina and A. I. Shepeljavyi, {"}Frequency-domain conditions for cycle-slipping in discrete system with periodic nonlinearity,{"} 2003 IEEE International Workshop on Workload Characterization (IEEE Cat. No.03EX775), St. Petersburg, Russia, 2003, pp. 607-610 vol.2, doi: 10.1109/PHYCON.2003.1236902.; International Workshop on Workload Characterization ; Conference date: 20-08-2003 Through 22-08-2003",

year = "2003",

language = "English",

isbn = "0-7803-7939-X",

pages = "607--610",

booktitle = "2003 IEEE International Workshop on Workload Characterization",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

address = "United States",

}

RIS

TY - GEN

T1 - Frequency-domain conditions for cycle-slipping in discrete systems with periodic nonlinearity

AU - Smirnova, V.B.

AU - Utina, N.V.

AU - Shepeljavyi, A.I.

N1 - V. B. Smirnova, N. V. Utina and A. I. Shepeljavyi, "Frequency-domain conditions for cycle-slipping in discrete system with periodic nonlinearity," 2003 IEEE International Workshop on Workload Characterization (IEEE Cat. No.03EX775), St. Petersburg, Russia, 2003, pp. 607-610 vol.2, doi: 10.1109/PHYCON.2003.1236902.

PY - 2003

Y1 - 2003

N2 - The property that the phase-error /spl sigma/(t) increases at least by k/spl Delta/, where k is an integer and /spl Delta/ is the period of the nonlinearity, when t tends to infinity, is called in communication systems "cycle-slipping". For the case of continuous synchronization systems this property is considered. In this paper we extend the analysis to discrete synchronization systems.

AB - The property that the phase-error /spl sigma/(t) increases at least by k/spl Delta/, where k is an integer and /spl Delta/ is the period of the nonlinearity, when t tends to infinity, is called in communication systems "cycle-slipping". For the case of continuous synchronization systems this property is considered. In this paper we extend the analysis to discrete synchronization systems.

UR - https://ieeexplore.ieee.org/document/1236902

M3 - Conference contribution

SN - 0-7803-7939-X

SP - 607

EP - 610

BT - 2003 IEEE International Workshop on Workload Characterization

PB - Institute of Electrical and Electronics Engineers Inc.

T2 - International Workshop on Workload Characterization

Y2 - 20 August 2003 through 22 August 2003

ER -

ID: 4484745