TY - GEN
T1 - Application-centric, energy-efficient network architecture, ACTION, based on flexible optical network
AU - Yamanaka, Naoaki
AU - Okamoto, Satoru
AU - Oki, Eiji
AU - Fumagalli, Andrea
AU - Veeraraghavan, Malathi
N1 - Publisher Copyright:
© 2014 IEEE.
PY - 2014/11/7
Y1 - 2014/11/7
N2 - The Compound Annual Growth Rate (CAGR) of Internet traffic volume lies in the 30-70% [1] range. For several good reasons (to handle unexpected traffic spurts, link failures and traffic growth), network resources are significantly over-provisioned in today's networks, and it is quite common to see link utilization in the 30%-40% range [2]. While new optical fibers can be laid, the costs of such deployment should be weighed against the costs of solutions that enable network operation at higher utilization levels. For example, new developments in optical technologies, such as flexible elastic optical networks, enable the provisioning of variable-bandwidth, variable-QoS (Quality of service) transmission pipes. In addition, current and future multi-media services have widely divergent bandwidth and QoE (Quality of Experience) requirements. ACTION (Applications Coordinated with Transport, IP and Optical Networks) is a multi-QoE, application-centric, highly energy-efficient network architecture that leverages flexible elastic optical network technologies. This project is supported by both the NSF, USA, and NICT, Japan, under the JUNO (joint collaboration between Japan and US) program. This paper provides a brief overview of the project.
AB - The Compound Annual Growth Rate (CAGR) of Internet traffic volume lies in the 30-70% [1] range. For several good reasons (to handle unexpected traffic spurts, link failures and traffic growth), network resources are significantly over-provisioned in today's networks, and it is quite common to see link utilization in the 30%-40% range [2]. While new optical fibers can be laid, the costs of such deployment should be weighed against the costs of solutions that enable network operation at higher utilization levels. For example, new developments in optical technologies, such as flexible elastic optical networks, enable the provisioning of variable-bandwidth, variable-QoS (Quality of service) transmission pipes. In addition, current and future multi-media services have widely divergent bandwidth and QoE (Quality of Experience) requirements. ACTION (Applications Coordinated with Transport, IP and Optical Networks) is a multi-QoE, application-centric, highly energy-efficient network architecture that leverages flexible elastic optical network technologies. This project is supported by both the NSF, USA, and NICT, Japan, under the JUNO (joint collaboration between Japan and US) program. This paper provides a brief overview of the project.
KW - Quality of Service
KW - Quality of Transport
KW - Quality os Experience
KW - flexible elastic networ
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U2 - 10.1109/COIN.2014.6950578
DO - 10.1109/COIN.2014.6950578
M3 - Conference contribution
AN - SCOPUS:84913573184
T3 - COIN 2014 - 12th International Conference on Optical Internet
BT - COIN 2014 - 12th International Conference on Optical Internet
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 12th International Conference on Optical Internet, COIN 2014
Y2 - 27 August 2014 through 29 August 2014
ER -