19 research outputs found
Mobility support in optical slot switching-based next-generation mobile backhaul networks
International audienceWe propose a new CoS-aware mechanism to support User-Element mobility at optical layer in optical slot switching-based next-generation mobile backhaul network. This new mechanism allows supporting 30% additional network load and up to halves latency compared with naive mechanism. Introduction With the evolution of the optical transport technologies, energy-efficient solutions for the transport in the radio access part of cellular backhaul networks have become available. In this paper, we consider the use of a fine granularity optical transport solution: optical slot switching (OSS), an energy-efficien
On coherent detection for optical transmissions at 40 GB/S and 100 GB/S
La prochaine gĂ©nĂ©ration d'infrastructures de communication par fibre optique comprendra des systĂšmes de transmission longue distance avec du multiplexage en longueur d'onde (WDM) Ă 40 et 100 Gb/s, et sera trĂšs probablement basĂ©e sur la dĂ©tection cohĂ©rente. Le travail de thĂšse dĂ©crit dans ce manuscrit Ă©tudie ces systĂšmes. Nous dĂ©montrons d'abord leur tolĂ©rance inĂ©galĂ©e Ă des effets physiques linĂ©aires de propagation, grĂące au traitement numĂ©rique du signal rĂ©alisĂ© dans le rĂ©cepteur. NĂ©anmoins, les systĂšmes optiques peuvent ĂȘtre limitĂ©s aussi par des effets non-linĂ©aires de propagation. Cette thĂšse explore le comportement non-linĂ©aire des signaux dĂ©tectĂ©s avec un rĂ©cepteur cohĂ©rent, spĂ©cialement quand ils sont multiplexĂ©s en polarisation. Nous avons particuliĂšrement Ă©tudiĂ© l'Ă©volution d el'impact des non-linĂ©aritĂ©s quand le dĂ©bit augmente de 40 et 100 Gb/s, en dĂ©montrant que l'augmentation du dĂ©bit accroĂźt la tolĂ©rance Ă certaines non-linĂ©aritĂ©s. Cette thĂšse examine Ă©galement l'interaction entre la dispersion modale de polarisation (PMD) et les non-linĂ©aritĂ©s. Contrairement aux systĂšmes existants, nous avons prouvĂ© que, lorsque la PDM est distribuĂ©e, elle s'avĂšre souvent ĂȘtre bĂ©nĂ©fique en rĂ©duisant les pĂ©nalitĂ©s causĂ©es par les non-linĂ©aritĂ©s.Au contraire, quand la PMD est localisĂ©e, elle peut augmenter la dĂ©gradation causĂ©e par les dites non-linĂ©aritĂ©s.The next generation of fibre-optic internet infrastructure will involve long-haul transmission systems with wavelength-division-multiplexed (WDM) channels at 40 and 100 Gb/s, and will be most likely based on coherent detection. This thesis focuses on these systems. We first demonstrate their unparallaled tolerance to linear fibre impairments, thanks to digital signal processing in the receiver, making them compatible with the legacy fibre infrastructure. Nevertheless, on top of linear fibre effects, optical systems may be limited by nonlinear fibre effects. This thesis gives insights on the nonlinear behaviour of signals detected with a coherent receiver, especially when multiplexed in polarisation. We show that the two polarisation components interact nonlinearly, which limits the system reach, even if a single channel is used. We particularly investigate the evolution of the impact of nonlinearities when increasing the bit rate from 40 to 100 Gb/s. We demonstrate that moving to higher symbol rates increases the tolerance to cross nonlinearities. This thesis also gives further insight on the interaction between polarisation mode dispersion (PMD) and nonlinearities. Unlike legacy systems, we have proved that, when distributed, PDM often turns out to be beneficial by reducing these nonlinear-induced penalities. On the contrary, when lumped, PDM may further increase the detrimental impact of nonlinearities. Finally, as a proof of the carriers' interest in 100 Gb/s technologies, this thesis reports the results of a field trial we have recently conducted on TelefĂłnica's network in Spain showing the potential of coherent technologies to upgrade already deplyed networks.PARIS-TĂ©lĂ©com ParisTech (751132302) / SudocSudocFranceF
DEVICE FOR CORRECTING THE PHASE SHIFT OF A TRANSMISSION CHANNEL
The invention provides a method for correcting the phase shift of a transmission channel, comprising: - providing a plurality of signal samples at succeeding time instances, comprising a data phase and a residual phase; for each successive signal sample: - determining a slowly-varying noise phase, and shifting the signal sample by the slowly-varying phase noise, - determining a rapidly varying noise phase and shifting the intermediate signal sample by the rapidly varying noise phase. The invention also provides a device
Interactive Automated Fiber Type Identification
We demonstrate in real-time the identification of the type of a deployed fiber in a network without traffic interruption, through the correlation of monitored chromatic dispersion values available at coherent receivers. Such application is implemented in an SDN control plane