Tuesday 24th September 11:00 – 12:30
Demo 1: SQSS: Smart Quantum-key Supply System for Practical End-to-end Quantum-secured Service
Kyu-Seok Shim (Korea Institute of Science and Technology Information)
Chankyun Lee (Korea Institute of Science and Technology Information)
Hyunkyo Lim (Korea Institute of Science and Technology Information)
Wonhyuk Lee (Korea Institute of Science and Technology Information)
We demonstrate smart quantum-key supply system which supports both post-quantum and legacy cryptography to forward quantum-key to quantum-secured service node. A cryptography method is adaptively selected based on the algorithm supportability of the service node.
Demo 2: Live Demonstration of Edge Cloud based Visual Inspection in Manufacturing on a Passive Optical Network Testbed
Massimiliano Sica (Fraunhofer Heinrich Hertz Institut (HHI) / TU Berlin)
Behnam Shariati (Fraunhofer Heinrich Hertz Institut (HHI))
Hagen Hösl (Fraunhofer Heinrich Hertz Institut (HHI))
David Przewozny (Fraunhofer Heinrich Hertz Institut (HHI))
Paul Chojecki (Fraunhofer Heinrich Hertz Institut (HHI))
Johannes Karl Fischer (Fraunhofer Heinrich Hertz Institut (HHI))
Ronald Freund (Fraunhofer Heinrich Hertz Institut (HHI) / TU Berlin)
We demonstrate the value of PON as an enabler for the manufacturing sector. We showcase real-time telemetry insights of a visual inspection use-case, such as the evolution of energy and traffic throughout the process, their relationship and the importance of network slicing for QoS assurance.
Demo 3: Enabling Cloud AR/VR Gaming Services by an Open-Source and Standards-Based Network-as-a-Service Platform for Control and Management of Optical Networks
Hesam Rahimi (Huawei Technologies)
Lluis Gifre (Centre Tecnològic de Telecomunicacions de Catalunya (CTTC-CERCA))
Ricard Vilalta (Centre Tecnològic de Telecomunicacions de Catalunya (CTTC-CERCA))
Raul Muñoz (Centre Tecnològic de Telecomunicacions de Catalunya (CTTC-CERCA))
Henry Yu (Huawei Technologies)
Yanpeng Wang (Huawei Technologies)
Ruilin Cai (Huawei Technologies)
Yixiao Chen (Huawei Technologies)
Hao Li (Huawei Technologies)
Haoyu Feng (Huawei Technologies)
Christopher Janz (Huawei Technologies)
This demo presents a novel standards-based and open-source platform for control and management of optical networks. Using this platform, cutting-edge Fifth Generation Fixed Network (F5G) capabilities can be introduced to enterprises, users, and application developers. We evaluate the platform with a cloud-based VR gaming use-case.
Demo 4: Autonomous Link-Capacity Adjustment using TeraFlowSDN Controller in a Disaggregated Optical Network Testbed
Mihail Balanici (Fraunhofer Heinrich Hertz Institute HHI)
Behnam Shariati (Fraunhofer Heinrich Hertz Institute HHI)
Muhammad Rehan Raza (Fraunhofer Heinrich Hertz Institute HHI)
Pooyan Safari (Fraunhofer Heinrich Hertz Institute HHI)
Aydin Jafari (Fraunhofer Heinrich Hertz Institute HHI)
Vignesh Karunakaran (Adtran Networks SE)
Achim Autenrieth (Adtran Networks SE)
Johannes Karl Fischer (Fraunhofer Heinrich Hertz Institute HHI)
Ronald Freund (Fraunhofer Heinrich Hertz Institute HHI)
We demonstrate a closed-loop operation for the use-case of autonomous optical link-capacity adjustment in a partially-disaggregated testbed. Our proposal employs a state-of-the-art traffic forecaster for capacity provisioning and an instance of TeraFlowSDN Controller for (re)configuration of IP/Optical network elements, without interrupting the end-to-end service.
Demo 5: Demonstration of LLM-based AI-Agent for Optical Network Management and Automation
Chenyu Sun (Huawei Paris Research Center / EURECOM / Sorbonne University)
Reda Ayassi (Huawei Paris Research Center)
Xin Yang (Huawei Paris Research Center / Politecnico di Milano)
Gabriel Charlet (Huawei Paris Research Center)
Photios A. Stavrou (EURECOM)
Yvan Pointurier (Huawei Paris Research Center)
We deployed an LLM-based AI-agent on a commercial product testbed for optical network management and automation. This demonstration showcases how the AI-agent interacts with controller APIs to implement service establishment, QoT estimation, and power optimization.
Demo 6: Dynamic Service Provisioning and Control Relying on Time-Varying Telemetry-Driven QoT Digital-Twin
Renato Ambrosone (Politecnico di Torino)
Ramon Casellas (Tecnològic de Telecomunicacions de Catalunya (CTTC))
Alessio Giorgetti (University of Pisa)
Riccardo Schips (Politecnico di Torino)
Stefano Straullu (LINKS Foundation)
Francesco Aquilino (LINKS Foundation)
Antonino Nespola (LINKS Foundation)
Roberto Morro (Telecom Italia)
Vittorio Curri (Politecnico di Torino)
This demo showcases innovative optical network control to enhance performance and QoT predictability. By means of a modular, closed-loop SDN control plane, it demonstrates dynamic service provisioning and optimal path selection, using telemetry, digital twin technology, open amplifier control and time-varying QoT estimation.
Demo 7: Low latency Low-Jitter Bandwidth-Efficient PON for Industry applications
Sandip Das (Nokia Solutions and Networks)
We demonstrate a TDM-PON based end-to-end system that achieves ultra-low latency and jitter with high throughput efficiency for time-sensitive applications. This is achieved using co-scheduling of TDM-PON with Ethernet Time Sensitive Network (TSN) elements to serve industrial applications requiring such end-to-end network performance.
Demo 8: Longitudinal Power Profile Monitoring telemetry enabling fault location-aware SDN controller
Alessandro Pacini (Scuola Superiore Sant’Anna)
Fabien Boitier (Nokia Bell Labs)
Alix May (Nokia Bell Labs)
Vinod Bajaj (Nokia Bell Labs)
Andrea Sgambelluri (Scuola Superiore Sant’Anna)
Alessio Giorgetti (University of Pisa)
Luca Valcarenghi (Scuola Superiore Sant’Anna)
Patricia Layec (Nokia Bell Labs)
This demonstration showcases sharper optical network reconfigurations through a SDN controller, enhanced with longitudinal PPE monitoring to enable soft-failure location. We developed a standard-compliant implementation of an efficient telemetry using OpenConfig and gNMI while balancing the computational needs between the receiver and the SDN controller.