TY - JOUR
T1 - Optimal design of resilient virtual networks [Invited]
AU - Barla Harter, Isil Burcu
AU - Schupke, Dominic A.
AU - Hoffmann, Marco
AU - Carle, Georg
N1 - Publisher Copyright:
© 2015 OSA.
PY - 2015/2/1
Y1 - 2015/2/1
N2 - Due to the independent operation of cloud infrastructures and communication networks, global cloud services face limitations in the end-to-end quality of experience (QoE). Network virtualization enables end-to-end QoE by combining the control of network and cloud resources. In a network-virtualization architecture involving different business roles, there are two important questions: how to design an end-to-end resilient virtual network for cloud services given the service requests and the available resources of the physical layer, and at which layer to provision resilience. The existing literature on virtual network design usually lacks the separation of the business roles and the corresponding layers, and hence, cannot offer an answer to these questions. In this invited paper, we address both questions by proposing novel resilient virtual network design models for flexible and cost-efficient virtual networks having resilience either at the virtual or the physical layer, or using a combination of both, and by analyzing the performance of the proposed resilience alternatives both via analysis and extensive simulations.
AB - Due to the independent operation of cloud infrastructures and communication networks, global cloud services face limitations in the end-to-end quality of experience (QoE). Network virtualization enables end-to-end QoE by combining the control of network and cloud resources. In a network-virtualization architecture involving different business roles, there are two important questions: how to design an end-to-end resilient virtual network for cloud services given the service requests and the available resources of the physical layer, and at which layer to provision resilience. The existing literature on virtual network design usually lacks the separation of the business roles and the corresponding layers, and hence, cannot offer an answer to these questions. In this invited paper, we address both questions by proposing novel resilient virtual network design models for flexible and cost-efficient virtual networks having resilience either at the virtual or the physical layer, or using a combination of both, and by analyzing the performance of the proposed resilience alternatives both via analysis and extensive simulations.
KW - Anycast
KW - Cloud network
KW - Network virtualization
KW - Resilience
UR - http://www.scopus.com/inward/record.url?scp=84923228362&partnerID=8YFLogxK
U2 - 10.1364/JOCN.7.00A218
DO - 10.1364/JOCN.7.00A218
M3 - Article
AN - SCOPUS:84923228362
SN - 1943-0620
VL - 7
SP - A218-A234
JO - Journal of Optical Communications and Networking
JF - Journal of Optical Communications and Networking
IS - 2
M1 - 7035272
ER -