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NS4Quantum 2026 : IEEE NFV SDN Special Session SS2: Network Softwarisation for Quantum Communication, Computing, and Sensing | |||||||||||
| Link: https://nfvsdn2026.ieee-nfvsdn.org/ss2-network-softwarisation-quantum-communication-computing-and-sensing | |||||||||||
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Call For Papers | |||||||||||
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CALL FOR PAPERS
SS2: Network Softwarisation for Quantum Communication, Computing, and Sensing Colocated with IEEE NFV SDN 2026, Tokyo, Japan Network softwarisation (e.g. SDN, NFV) and the cloud have made networks programmable, service-oriented, and increasingly autonomous. In parallel, quantum technologies are transitioning from laboratory prototypes to operational platforms accessible through cloud interfaces like Quantum-as-a-Service (QaaS) and early quantum networking solutions. These trends are currently progressing. This special session aims to explore the intersection between softwarisation and quantum technologies. The integration of quantum technologies (communication, computing, and sensing) into 6G softwarised continuum and cloud-managed systems. The session also focuses on how softwarization principles can extend to quantum networking, and how quantum technologies may influence the evolution of virtualized and programmable network architectures in the 6G era. The session highlights emerging research directions to discuss the architectural, operational, and orchestration challenges of integrating quantum and classical infrastructures. Additionally, the perspective on use cases considering an entanglement-assisted softwarized network with also quantum sensing and computing available, where quantum resources are also offered ‘as-a-service’ via APIs to applications, orchestrated across edge-cloud infrastructure, and operated under specific Key Performance Indicators (KPIs). Finally, how quantum resources can be modelled as virtualised and programmable resources, how they can be chained with classical network functions (NFV and service function chaining) and governed via SDN control plane. TOPICS OF INTEREST The special session welcomes original research and experience papers on the following topics and thematic areas (indicative): Hybrid quantum–classical network architectures controlled via SDN/NFV Virtualization and abstraction of quantum resources (channels, memories, repeaters, compute nodes) Orchestration of quantum services in cloud‑native and 6G environments Integration of quantum‑secure communication (e.g., QKD, QRNG) into softwarized networks AI/ML for quantum routing, entanglement management, and hybrid resource optimization Testbeds and experimental platforms for quantum‑classical networking Network slicing and QoS models for quantum and quantum‑enabled services Standardization and interoperability challenges for quantum networking within SDN/NFV ecosystems SDN‑based control of quantum nodes and channels Orchestration of quantum‑secure services in virtualized environments AI/ML for quantum network optimization Experiences from hybrid quantum‑classical testbeds These topics have been chosen to be fully aligned with the conference themes while introducing a forward‑looking perspective that broadens the scope of NFV‑SDN research to quantum networks. ORGANIZING COMMITTEE Riccardo Bassoli, Technische Universität Dresden, Germany Cristina Costa, S2N Lab, CNIT, Genova, Italy IMPORTANT DATES Paper submission: July 15, 2026 Paper acceptance notification: August 30, 2026 Camera ready: September 30, 2026 |
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