Noise Performance and Error Probability Measurement using Energy Balance
Ilia Iliev and Marin Nedelchev Ilia Iliev is with the Faculty of Telecommunications at Technical University of Sofia, 8 Kl. Ohridski Blvd, Sofia 1000, Bulgaria., Marin Nedelchev is with the Faculty of Telecommunications at Technical University of Sofia, 8 Kl. Ohridski Blvd, Sofia 1000
Abstract: The echo effect in the reverse channel in CATV is measured and the outcome is presented with the dispersion properties results. The models and the distribution functions are explained with the properties and the signal to interference ration is also found out in the study. The inter-symbol and inter-channel interference in CATV with S-CDMA is explained. The noise performance and upper limit of the error probability is measured. The noise performance is recorded and the energy balance and network design are explained.
Keywords: CATV, S-CDMA, Reverse Channel, DOCSIS, Dispersive Channel Noise Performance and Error Probability Measurement using Energy Balance
[1] CableLabs (2011). Data over Cable Service Interface Specification DOCSIS 3.0, Physical Layer Specification CM-SP-PHYv3.0- I10-111117. Society of Cable Telecommunications Engineers. [2] Smith, E.S. (1970) The emergence of CATV: A look at the evolution of a revolution. Proceedings of the IEEE, 58, 967–982 [DOI: 10.1109/PROC.1970.7839]. [3] Sklar, B. (2001). Digital Communications: Fundamentals and Applications. Prentice Hall: Englewood Cliffs, USA. [4] CableLabs, Data over Cable Service Interface Specification DOCSIS 1.0 Radiofrequency Interface (1997). Society of Cable Telecommunications Engineers. [5] Ovadia, S. (2001). Broadband Cable TV Access Networks. Prentice Hall: Englewood Cliffs, USA. [6] Proakis, J.G. (2001). Digital Communication. McGraw-Hill: New York, USA.
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