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TU Berlin

Inhalt des Dokuments

Analytical assessment of nonlinear propagation effects: Finding an equivalent single-span system

In recent years, the upgrade of the existing optical networks has become of concern and many works dealing with high spectral efficiency systems have been published. However, neither an accurate description of the impairments due to the nonlinear effects nor the theoretical capacity of these dense wavelength division multiplexed (DWDM) systems have been available up to now.


The lack of an appropriate analytical model is mainly due to the mathematical complexity of the nonlinear transmissions. There exist simulation tools that provide numerical solutions of the problem but they cannot provide some general rules or models describing DWDM transmissions and thus are only used to optimise a given system.

The goal of this project is to provide a better understanding of what actually occurs during a DWDM transmission. A top-down approach (i.e. a high-level analysis) has to be proposed in order to define a set of fundamental rules. This set of rules should cover a large range of areas (e.g. modulation format, spectral efficiency, dispersion maps, amplification…) and should be reinterpreted as design guidance.

Exemplary Publications

  • J.K. Fischer, C.-A. Bunge, K. Petermann
    Application of the nonlinear transfer function to dispersion map evaluation in DPSK transmission systems
    2006 IEEE LEOS Annual Meeting Conference Proceedings (LEOS'06),paper ThH2, pp. 773-774, October/November 2006, Montreal, Canada
  • J.K. Fischer, C.-A. Bunge, K. Jamshidi, H. Louchet, K. Petermann
    Equivalent dispersion maps in fibre-optic communication systems
    Proc. 32nd European Conference on Optical Communication (ECOC'06), Vol. 3, pp. 389-390, September 2006, Cannes, France
  • H. Louchet, A. Hodzic, K. Petermann, A. Robinson, R. Epworth
    Analytical Model for the Design of Multispan DWDM Transmission Systems
    IEEE Photonics Technology Letters, vol. 17, no. 1, pp. 247-249, Jan. 2005


Dipl.-Ing. Johannes K. Fischer
Tel.: +49 (30) 314 23 806
Fax.: +49 (30) 314 24 626

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