The aim of the workshop is to provide a forum for researchers from both academia and industry to present the high–quality results in the area of reliable networks design and modeling.<br>The topics cover, but are not necessarily limited to the following:<br>coordination of multilayer survivability operations,<br>design of dedicated/shared backup paths,<br>end–to–end resilience,<br>energy efficiency in survivable networks,<br>fast service recovery,<br>fault management and control in survivable networks,<br>green networks reliability,<br>impact on detection accuracy and latency on survivability,<br>management issues in reliable networks design,<br>methods for measurement, evaluation, or validation of survivability,<br>modeling malicious behaviour or attacks on networks,<br>models and algorithms of survivable networks design and modeling,<br>multilayer networks survivability,<br>optical networks survivability,<br>p–cycles and other protection structures,<br>planning and optimization of reliable networks,<br>restoration strategies under different types of failures,<br>reliability of converged wireless–wired communications,<br>reliability of multidomain communications,<br>role of redundancy in survivable networks,<br>self–regenerative networks,<br>service resilience differentiation,<br>survivability of anycast and multicast networks,<br>survivability of grid and distributed computing systems,<br>survivability of P2P and overlay systems,<br>survivability under traffic grooming in multilayer networks,<br>theory and methods of reliability and availability,<br>use of self–healing techniques in surviving attacks,<br>wireless access and mesh networks survivability.<br>
Abbrevation
RNDM
City
St. Petersburg
Country
Russia
Deadline Paper
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Abstract