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916 results on '"Schembra"'

1. DRL-based Latency-Aware Network Slicing in O-RAN with Time-Varying SLAs

Author

Raftopoulos, Raoul, D'Oro, Salvatore, Melodia, Tommaso, and Schembra, Giovanni

Subjects
Computer Science - Networking and Internet Architecture
Abstract

The Open Radio Access Network (Open RAN) paradigm, and its reference architecture proposed by the O-RAN Alliance, is paving the way toward open, interoperable, observable and truly intelligent cellular networks. Crucial to this evolution is Machine Learning (ML), which will play a pivotal role by providing the necessary tools to realize the vision of self-organizing O-RAN systems. However, to be actionable, ML algorithms need to demonstrate high reliability, effectiveness in delivering high performance, and the ability to adapt to varying network conditions, traffic demands and performance requirements. To address these challenges, in this paper we propose a novel Deep Reinforcement Learning (DRL) agent design for O-RAN applications that can learn control policies under varying Service Level Agreement (SLAs) with heterogeneous minimum performance requirements. We focus on the case of RAN slicing and SLAs specifying maximum tolerable end-to-end latency levels. We use the OpenRAN Gym open-source environment to train a DRL agent that can adapt to varying SLAs and compare it against the state-of-the-art. We show that our agent maintains a low SLA violation rate that is 8.3x and 14.4x lower than approaches based on Deep Q- Learning (DQN) and Q-Learning while consuming respectively 0.3x and 0.6x fewer resources without the need for re-training.

Published
2024

13. Wireless Mesh Networks to Support Video Surveillance: Architecture, Protocol, and Implementation Issues

Author

Licandro Francesco and Schembra Giovanni

Subjects
Telecommunication, TK5101-6720, Electronics, TK7800-8360
Abstract

Current video-surveillance systems typically consist of many video sources distributed over a wide area, transmitting live video streams to a central location for processing and monitoring. The target of this paper is to present an experience of implementation of a large-scale video-surveillance system based on a wireless mesh network infrastructure, discussing architecture, protocol, and implementation issues. More specifically, the paper proposes an architecture for a video-surveillance system, and mainly centers its focus on the routing protocol to be used in the wireless mesh network, evaluating its impact on performance at the receiver side. A wireless mesh network was chosen to support a video-surveillance application in order to reduce the overall system costs and increase scalability and performance. The paper analyzes the performance of the network in order to choose design parameters that will achieve the best trade-off between video encoding quality and the network traffic generated.

Published
2007

16. WatchEDGE: Smart networking for distributed AI-based environmental control

Author

Maier, G, Albanese, A, Ciavotta, M, Ciulli, N, Giordano, S, Giusti, E, Salvatore, A, Schembra, G, Maier G., Albanese A., Ciavotta M., Ciulli N., Giordano S., Giusti E., Salvatore A., Schembra G., Maier, G, Albanese, A, Ciavotta, M, Ciulli, N, Giordano, S, Giusti, E, Salvatore, A, Schembra, G, Maier G., Albanese A., Ciavotta M., Ciulli N., Giordano S., Giusti E., Salvatore A., and Schembra G.

Abstract

Modern applications that make extensive use of AI and ML require the support of an agile network environment that allows raw data to be processed at the edge, where they are collected, while computing functions both for the training and inference phases need to be efficiently moved from site to site. In this paper we present the WatchEDGE project. WatchEDGE studies an advanced edge-computing architecture supporting AI-based image processing applications distributed on geographically-distant sites, which can be adopted for environmental surveillance in the context of smart agriculture and wildlife protection. WatchEDGE is orchestrated to maximize data processing at the edge: each site (or “island”) is equipped with an edge-computing infrastructure that can be provided by fleets of flying drones (FANET); moreover, in the islands there are smart cameras and smart radars; cameras can be either grounded or mounted on board the UAVs. The islands are interconnected by SD-WAN technology. The project is part of the RESTART program, funded by NextGenerationEU.

Published
2024

21. A Multi-UAVs’ Provider Model for the Provision of 5G Service Chains: A Game Theoretic Approach

Author

Cappello, Giorgia Maria, Colajanni, Gabriella, Daniele, Patrizia, Galluccio, Laura, Grasso, Christian, Schembra, Giovanni, Scrimali, Laura Rosa Maria, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Simos, Dimitris E., editor, Rasskazova, Varvara A., editor, Archetti, Francesco, editor, Kotsireas, Ilias S., editor, and Pardalos, Panos M., editor

Published
2022
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