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Recent advances in flexible and programmable device technologies, such as flexible-spectrum variable-rate transceivers and reconfigurable optical add-drop multiplexers (ROADMs), coupled with emergence of software-defined network paradigms, such as OpenFlow, have enabled the possibility of software-defined elastic optical networks that can be flexibly and dynamically provisioned and reconfigured. The ability to flexibly manage and provision resources allows service providers to support a wide range of emerging dynamic high-bandwidth applications, including data center networking, cloud computing, and optical network virtualization.
In developing mechanisms for supporting the rapid and flexible provisioning of resources in elastic optical networks, several key challenges must be considered. These challenges may include issues related to the cost-effective design of data and control plane architectures, the intelligent provisioning and reconfiguration of resources to support dynamic and heterogeneous applications, the design of mechanisms to provide survivability against equipment failures and major disasters, and the design of architectures and protocols for reducing energy consumption in elastic optical networks.
The purpose of this Special Issue is to have solicited submissions of original work and survey papers on all topics related to recent advances in elastic optical network and software-defined optical networks. The Special Issue consists of five papers. The first paper is a survey article on Software Defined Optical Network. The next paper focuses on the proposal and evaluation of a new Elastic Optical Network (EON) paradigm based on Spatial, Spectral and Temporal domain. The third paper proposes and evaluates new mapping techniques of Virtual Networks in EON. The last two papers focus on the experimental evaluation of restoration mechanisms in EONs. Brief summaries of the accepted articles are listed below.
The paper titled “Software-Defined Optical Networks (SDONs)—A Survey” by P. Bhaumik et al. gives an overview of SDONs. It then explains the benefits and challenges of extending SDNs to multi-layer optical networks, including flexible grid and elastic optical networks, and how it compares to Generalized Multi-Protocol Label Switching (GMPLS) for implementing a unified control plane. An overview on the industry and research efforts, SDON standardization and implementation is also given next. Finally, the paper outlines the benefits achieved by SDONs for network operators, and also some of the important and relevant research problems that need to be addressed.
The paper titled “Software Defined Elastic Optical Networking in Temporal, Spectral, Spatial Domains” by S. J. B. Yoo et al. proposes and investigates the performance of the 3-Dimensional (3D) Elastic Optical Networking paradigm in which the information is carried in the temporal, spectral and spatial domains. The authors use dynamic Optical Arbitrary Waveform Generation (OAWG) and Optical Arbitrary Waveform Measurement (OAWM) for transmitters and receivers respectively to exploit elasticity in the temporal and spectral domains. The spatial domain is supported by carrying on a fiber more light beams with different orbital angular momentums (OAM). The introduced OAM multiplexing and demultiplexing are demonstrated with the realization of a Photonic Integrated Circuit (PIC). The authors also describe how a 3D-EON- based network can be controlled by an Open Flow-based Control Plane and present results from an experimental test-bed in which the proposed solutions have been implemented.
The paper titled “Upgrade-aware Virtual Infrastructure Mapping in Software-Defined Elastic Optical Networks” by Z. Ye et al. investigates a new problem of efficient Virtual Infrastructure (VI) mapping in Elastic Optical Network. The authors address the issue related to the Upgrade Virtual Topology (UVT) mapping when users want to expand their business by requesting more nodes/links and high computing/bandwidth resources. They study how the support of this added service impacts the Physical Substrate (PS) providers’ revenue by introducing two different pricing policies. It also discusses how the integration of Software Defined Elastic Optical Network can effectively support VI mappings with upgrade as it provides flexibility and programmability in transmission and switching elements while abstract control plane intelligence from the hardware to a centralized node.
The paper titled “Multipath Restoration and Bitrate Squeezing in SDN-based Elastic Optical Networks” by F. Paolucci et al. proposes the use of bitrate squeezing and multipath restoration in the context of dynamic SDN controlled EONs. The authors formally state the bitrate squeezing and multipath restoration problem and then model it by introducing an Integer Linear Programming (ILP) formulation. The objective is to maximize the amount of restored bitrate by exploiting the available spectrum resources also along multiple routes. As a result of the stringent time to computing a solution, a heuristic algorithm providing better trade-off between optimality and complexity is proposed to solve the problem. The proposed solution is implemented in an SDN control plane and OpenFlow extensions are presented and implemented to control the Sliceable Bandwidth Variable Transponders and Bandwidth Variable Optical Cross Connects in the EONs.
The paper titled “Multi-Stratum Resources Resilience in Software Defined Data Center Interconnection based on IP over Elastic Optical Networks” by H. Yang et al. proposes a novel multi-stratum resource resilience (MSRR) architecture for SDN-EON-based data center interconnection networks. The MSRR architecture can enable joint optimization of IP network, elastic optical network and application stratum resources, and enhances the service resilience and the data center responsiveness to the dynamic end-to-end service demands. Additionally, a service-aware resource collaborative resilience (RCR) strategy for MSRR is introduced based on the proposed architecture. This can provide restoration using the multiple stratums resources in case of optical node failures. The overall feasibility and efficiency of the proposed architecture are evaluated by simulation and experimentally verified on an experimental testbed with the OpenFlow-enabled devices.
The Guest Editors thank all the authors who submitted papers to the Special Issue and also acknowledge all the reviewers for ensuring a high quality of the selected papers.
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Jue, J., Eramo, V., López, V. et al. Software-defined elastic optical networks. Photon Netw Commun 28, 1–3 (2014). https://doi.org/10.1007/s11107-014-0454-2
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DOI: https://doi.org/10.1007/s11107-014-0454-2