Synopses & Reviews
Bidirectional transmission over optical fibre networks may yield a large cost reduction because of the reduction of the network infrastructure by a factor two and the potential cost reduction by an integrated transceiver design. It may also provide a cost-effective way to upgrade distribution networks by adding bidirectional channels. This book is the first to provide a comprehensive overview of bidirectional transmission in optical networks. It handles physical aspects: the behaviour of the fibre itself in bidirectional transmission transmission aspects: the behaviour and design of bidirectional systems and network aspects: the influence of bidirectional transmission on network design. £/LIST£ Practical guidelines are also given for bidirectional system design. Audience:This book is aimed at designers, builders and operators of optical networks, e.g. the manufacturers of optical transmission systems, public-network operators, developers of local-area networks, cable-television operators, etcetera. The intended level of readership is graduate level in physics or electrical engineering.
Table of Contents
1: Introduction. 2: Network Aspects. 2.1. Network Topology.
2.2. Frequency Management.
3: Physical Aspects. 3.1. Reciprocity.
3.2. Polarisation.
3.3. Rayleigh Backscattering.
3.4. Stimulated Brillouin Scattering.
3.5. Four-Wave Mixing.
4: Transmission Aspects. 4.1. Bidirectional Multiplexing.
4.2. Crosstalk in a Bidirectional Direct-Detection System.
4.3. Crosstalk in a Bidirectional Coherent System.
4.4. Optical Amplifiers.
5: Polarisation Handling. 5.1. Overview.
5.2. Common Polarisation Control.
5.3. Common Data-Induced Polarisation Switching.
6: Conclusions and Guidelines. 6.1. Conclusions.
6.2. Guidelines for Bidirectional System Design. List of Abbreviations. List of Symbols. Index.