Author :
Goscien, Roza ; Walkowiak, Krzysztof ; Klinkowski, Miroslaw ; Rak, Jacek
Abstract :
In this article, we analyze gains resulting from the use of EON architectures with special focus on transportation of cloud-ready and content-oriented traffic in the context of network resilience. EONs are a promising approach for future optical transport networks and, apart from improving the network spectral efficiency, bring such new capabilities as squeezed protection, which reduces resource requirements in failure scenarios. In the introductory part, we present a background on new network services based on cloud computing and content orientation paradigms, EON architectures, and their survivability mechanisms. Next, we show the impact of disasters on EON performance. To support the discussion, in the evaluation part we provide simulation results to compare survivable EONs and wavelength-switching optical networks, estimate the efficiency of different survivable EON schemes supporting cloud- and content-oriented traffic, and assess the robustness of EONs to disasters.
Keywords :
cloud computing; optical engineering computing; optical fibre networks; optical switches; telecommunication network reliability; telecommunication traffic; wavelength division multiplexing; EON architecture; EON protection; cloud computing; content oriented traffic; disaster; elastic optical network; future optical transport network; network resilience; network service; network spectral efficiency; squeezed protection; survivability mechanism; Bandwidth; Cloud computing; Computer architecture; Elastic optical networks; Optical fiber networks; Optical modulation;
