Abstract
The interoperability of wireless and PON topologies is investigated to reduce
deployment expenditure by means of centralised network management while providing ubiquitous access connections and mobility. In addition, the application of extended wavelength band overlay has been proposed to enhance scalability in the converged platform with the slightest modification in network hardware. To that extent, network modelling in the physical layer of WiMAX channel transmission based on FDM over single- and multi-wavelength power-splitter PONs has
demonstrated EVMs below -30dB and worst-case 1E-4 transmission in multipath fading channels
deployment expenditure by means of centralised network management while providing ubiquitous access connections and mobility. In addition, the application of extended wavelength band overlay has been proposed to enhance scalability in the converged platform with the slightest modification in network hardware. To that extent, network modelling in the physical layer of WiMAX channel transmission based on FDM over single- and multi-wavelength power-splitter PONs has
demonstrated EVMs below -30dB and worst-case 1E-4 transmission in multipath fading channels
Original language | English |
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Number of pages | 4 |
Publication status | Published - 4 Sept 2009 |
Event | London Communications Symposium 2009 - University College, London, United Kingdom Duration: 3 Sept 2009 → 4 Sept 2009 |
Conference
Conference | London Communications Symposium 2009 |
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Country/Territory | United Kingdom |
Period | 3/09/09 → 4/09/09 |