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1. A Stochastic Geometry Based Techno-Economic Analysis of RIS-Assisted Cellular Networks

Author

Sun, Guodong, Baccelli, Francois, Garcia, Luis Uzeda, and Paris, Stefano

Subjects
Computer Science - Performance, Computer Science - Networking and Internet Architecture
Abstract

Reconfigurable intelligent surfaces (RISs) are a promising technology for enhancing cellular network performance and yielding additional value to network operators. This paper proposes a techno-economic analysis of RIS-assisted cellular networks to guide operators in deciding between deploying additional RISs or base stations (BS). We assume a relative cost model that considers the total cost of ownership (TCO) of deploying additional nodes, either BSs or RISs. We assume a return on investment (RoI) that is proportional to the system's spectral efficiency. The latter is evaluated based on a stochastic geometry model that gives an integral formula for the ergodic rate in cellular networks equipped with RISs. The marginal RoI for any investment strategy is determined by the partial derivative of this integral expression with respect to node densities. We investigate two case studies: throughput enhancement and coverage hole mitigation. These examples demonstrate how operators could determine the optimal investment strategy in scenarios defined by the current densities of BSs and RISs, and their relative costs. Numerical results illustrate the evolution of ergodic rates based on the proposed investment strategy, demonstrating the investment decision-making process while considering technological and economic factors. This work quantitatively demonstrates that strategically investing in RISs can offer better system-level benefits than solely investing in BS densification., Comment: This document supports a work submitted to WiOpt2025, including the supplementary mathematical verification in the appendix

Published
2025

2. Overview of NR Enhancements for Extended Reality (XR) in 3GPP 5G-Advanced

Author

Gapeyenko, Margarita, Paris, Stefano, Isomaki, Markus, Yanakiev, Boyan, Amiri, Abolfazl, Sébire, Benoist, Kaikkonen, Jorma, Wu, Chunli, and Pedersen, Klaus I.

Subjects
Computer Science - Networking and Internet Architecture
Abstract

Extended reality (XR) is unlocking numerous possibilities and continues attracting individuals and larger groups across different business sectors. With Virtual reality (VR), Augmented reality (AR), or Mixed reality (MR) it is possible to improve the way we access, deliver and exchange information in education, health care, entertainment, and many other aspects of our daily lives. However, to fully exploit the potential of XR, it is important to provide reliable, fast and secure wireless connectivity to the users of XR and that requires refining existing solutions and tailoring those to support XR services. This article presents a tutorial on 3GPP 5G-Advanced Release 18 XR activities, summarizing physical as well as higher layer enhancements introduced for New Radio considering the specifics of XR. In addition, we also describe enhancements across 5G system architecture that impacted radio access network. Furthermore, the paper provides system-level simulation results for several Release 18 enhancements to show their benefits in terms of XR capacity and power saving gains. Finally, it concludes with an overview of future work in Release 19 that continues developing features to support XR services.

Published
2024

3. PDU-set Scheduling Algorithm for XR Traffic in Multi-Service 5G-Advanced Networks

Author

Paymard, Pouria, Paris, Stefano, Amiri, Abolfazl, Kolding, Troels E., Moya, Fernando Sanchez, and Pedersen, Klaus I.

Subjects
Computer Science - Networking and Internet Architecture
Abstract

In this paper, we investigate a dynamic packet scheduling algorithm designed to enhance the eXtended Reality (XR) capacity of fifth-generation (5G)-Advanced networks with multiple cells, multiple users, and multiple services. The scheduler exploits the newly defined protocol data unit (PDU)-set information for XR traffic flows to enhance its quality-of-service awareness. To evaluate the performance of the proposed solution, advanced dynamic system-level simulations are conducted. The findings reveal that the proposed scheduler offers a notable improvement in increasing XR capacity up to 45%, while keeping the same enhanced mobile broadband (eMBB) cell throughput as compared to the well-known baseline schedulers.

Published
2023

4. A Stochastic Geometry Framework for Performance Analysis of RIS-assisted OFDM Cellular Networks

Author

Sun, Guodong, Baccelli, Francois, Feng, Ke, Garcia, Luis Uzeda, and Paris, Stefano

Subjects
Computer Science - Information Theory, Computer Science - Performance
Abstract

The reconfigurable intelligent surface (RIS) technology allows one to engineer spatial diversity in complex cellular networks. This paper provides a framework for the system-level performance assessment of RIS-assisted networks and in particular downlink coverage probability and ergodic rate. To account for the inherent randomness in the spatial deployments of base stations (BSs) and RISs, we model the placements of the RISs as point processes (PPs) conditioned on the associated BSs, which are modeled by a Poisson point process (PPP). These RIS PPs can be adapted based on the deployment strategy. We focus on modeling the RISs as a Mat\'ern cluster process (MCP), where each RIS cluster is a finite PPP with support a disc centered on the association BS. We assume that the system uses the orthogonal frequency division multiplexing (OFDM) technique to exploit the multipath diversity provided by RISs. The coverage probability and the ergodic rate can be evaluated when RISs operate as batched powerless beamformers. The resulting analytical expressions provide a general methodology to evaluate the impact of key RIS-related parameters, such as the batch size and the density of RISs, on system-level performance. To demonstrate the framework's broad applicability, we also analyze a RIS placement variant where RISs are deployed around coverage holes. Numerical evaluations of the analytical expressions and Monte-Carlo simulations jointly validate the proposed analytical approach and provide valuable insights into the design of future RIS-assisted cellular networks.

Published
2023

5. Standardization of Extended Reality (XR) over 5G and 5G-Advanced 3GPP New Radio

Author

Gapeyenko, Margarita, Petrov, Vitaly, Paris, Stefano, Marcano, Andrea, and Pedersen, Klaus I.

Subjects
Computer Science - Networking and Internet Architecture
Abstract

Extended Reality (XR) is one of the major innovations to be introduced in 5G/5G-Advanced communication systems. A combination of augmented reality, virtual reality, and mixed reality, supplemented by cloud gaming, revisits the way how humans interact with computers, networks, and each other. However, efficient support of XR services imposes new challenges for existing and future wireless networks. This article presents a tutorial on integrating support for the XR into the 3GPP New Radio (NR), summarizing a range of activities handled within various 3GPP Service and Systems Aspects (SA) and Radio Access Networks (RAN) groups. The article also delivers a case study evaluating the performance of different XR services in state-of-the-art NR Release 17. The paper concludes with a vision of further enhancements to better support XR in future NR releases and outlines open problems in this area., Comment: Accepted to IEEE Network, 2023. Copyright 2023 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for all other uses, in any current or future media, including reprinting/republishing this material, creating new works, for resale or redistribution to servers or lists, or reuse of any copyrighted component of this work in other works

Published
2022

7. Adaptive Robust Traffic Engineering in Software Defined Networks

Author

Sanvito, Davide, Filippini, Ilario, Capone, Antonio, Paris, Stefano, and Leguay, Jeremie

Subjects
Computer Science - Networking and Internet Architecture
Abstract

One of the key advantages of Software-Defined Networks (SDN) is the opportunity to integrate traffic engineering modules able to optimize network configuration according to traffic. Ideally, network should be dynamically reconfigured as traffic evolves, so as to achieve remarkable gains in the efficient use of resources with respect to traditional static approaches. Unfortunately, reconfigurations cannot be too frequent due to a number of reasons related to route stability, forwarding rules instantiation, individual flows dynamics, traffic monitoring overhead, etc. In this paper, we focus on the fundamental problem of deciding whether, when and how to reconfigure the network during traffic evolution. We propose a new approach to cluster relevant points in the multi-dimensional traffic space taking into account similarities in optimal routing and not only in traffic values. Moreover, to provide more flexibility to the online decisions on when applying a reconfiguration, we allow some overlap between clusters that can guarantee a good-quality routing regardless of the transition instant. We compare our algorithm with state-of-the-art approaches in realistic network scenarios. Results show that our method significantly reduces the number of reconfigurations with a negligible deviation of the network performance with respect to the continuous update of the network configuration., Comment: 10 pages, 8 figures, submitted to IFIP Networking 2018

Published
2017
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8. Overlay Routing for Fast Video Transfers in CDN

Author

Medagliani, Paolo, Paris, Stefano, Leguay, Jérémie, Maggi, Lorenzo, Chuangsong, Xue, and Zhou, Haojun

Subjects
Computer Science - Networking and Internet Architecture
Abstract

Content Delivery Networks (CDN) are witnessing the outburst of video streaming (e.g., personal live streaming or Video-on-Demand) where the video content, produced or accessed by mobile phones, must be quickly transferred from a point to another of the network. Whenever a user requests a video not directly available at the edge server, the CDN network must 1) identify the best location in the network where the content is stored, 2) set up a connection and 3) deliver the video as quickly as possible. For this reason, existing CDNs are adopting an overlay structure to reduce latency, leveraging the flexibility introduced by the Software Defined Networking (SDN) paradigm. In order to guarantee a satisfactory Quality of Experience (QoE) to users, the connection must respect several Quality of Service (QoS) constraints. In this paper, we focus on the sub-problem 2), by presenting an approach to efficiently compute and maintain paths in the overlay network. Our approach allows to speed up the transfer of video segments by finding minimum delay overlay paths under constraints on hop count, jitter, packet loss and relay processing capacity. The proposed algorithm provides a near-optimal solution, while drastically reducing the execution time. We show on traces collected in a real CDN that our solution allows to maximize the number of fast video transfers.

Published
2017

9. Online and Global Network Optimization: Towards the Next-Generation of Routing Platforms

Author

Leguay, Jérémie, Draief, Moez, Chouvardas, Symeon, Paris, Stefano, Paschos, Georgios S., Maggi, Lorenzo, and Qi, Meiyu

Subjects
Computer Science - Networking and Internet Architecture
Abstract

The computation power of SDN controllers fosters the development of a new generation of control plane that uses compute-intensive operations to automate and optimize the network configuration across layers. From now on, cutting-edge optimization and machine learning algorithms can be used to control networks in real-time. This formidable opportunity transforms the way routing systems should be conceived and designed. This paper presents a candidate architecture for the next generation of routing platforms built on three main pillars for admission control, re-routing and monitoring that would have not been possible in legacy control planes., Comment: 16 pages, 6 figures, Under submission

Published
2016

10. A Distributed Demand-Side Management Framework for the Smart Grid

Author

Barbato, Antimo, Capone, Antonio, Chen, Lin, Martignon, Fabio, and Paris, Stefano

Subjects
Computer Science - Computer Science and Game Theory, Computer Science - Distributed, Parallel, and Cluster Computing
Abstract

This paper proposes a fully distributed Demand-Side Management system for Smart Grid infrastructures, especially tailored to reduce the peak demand of residential users. In particular, we use a dynamic pricing strategy, where energy tariffs are function of the overall power demand of customers. We consider two practical cases: (1) a fully distributed approach, where each appliance decides autonomously its own scheduling, and (2) a hybrid approach, where each user must schedule all his appliances. We analyze numerically these two approaches, showing that they are characterized practically by the same performance level in all the considered grid scenarios. We model the proposed system using a non-cooperative game theoretical approach, and demonstrate that our game is a generalized ordinal potential one under general conditions. Furthermore, we propose a simple yet effective best response strategy that is proved to converge in a few steps to a pure Nash Equilibrium, thus demonstrating the robustness of the power scheduling plan obtained without any central coordination of the operator or the customers. Numerical results, obtained using real load profiles and appliance models, show that the system-wide peak absorption achieved in a completely distributed fashion can be reduced up to 55%, thus decreasing the capital expenditure (CAPEX) necessary to meet the growing energy demand.

Published
2014

13. Performance Analysis of RIS-assisted MIMO-OFDM Cellular Networks Based on Matern Cluster Processes

Author

Sun, Guodong, Baccelli, Francois, Feng, Ke, Garcia, Luis Uzeda, Paris, Stefano, Sun, Guodong, Baccelli, Francois, Feng, Ke, Garcia, Luis Uzeda, and Paris, Stefano

Abstract

Reconfigurable Intelligent Surfaces (RIS) technology are a promising physical-layer candidate for sixth-generation (6G) cellular networks. This paper provides a system-level performance assessment of RIS-assisted multi-input multi-output (MIMO) cellular networks in terms of downlink coverage probability and ergodic rate. To capture the inherent randomness in the spatial deployments of both Base Stations (BSs) and RISs, we propose a new stochastic geometry model for such systems based on the Matern Cluster Process (MCP). This model consists in randomly distributed RISs around BSs, whose placement is according to a Poisson Point Process (PPP). The RISs provide the multipath diversity and the multiple antenna receiver provide the antenna diversity. The system is assumed to use the orthogonal frequency division multiplexing (OFDM) technique to modulate the former and employ the maximal ratio combining (MRC) technique at the receiver to exploit the latter. We show that the coverage probability and the ergodic rate can be evaluated when considering RISs operate as batched powerless beamformers. The resulting analytical expressions provide a generic methodology to evaluate the impact of key RIS-related parameters, such as the size of RIS and the density of nodes, on system level performance. Numerical evaluations of the analytical expressions and Monte-Carlo simulations jointly validate the proposed analytical approach and provide valuable insights into the design of future RIS-assisted radio cellular networks.

Published
2023

15. Optimal Node Placement in Distributed Wireless Security Architectures

Author

Martignon, Fabio, Paris, Stefano, Capone, Antonio, Hutchison, David, editor, Kanade, Takeo, editor, Kittler, Josef, editor, Kleinberg, Jon M., editor, Mattern, Friedemann, editor, Mitchell, John C., editor, Naor, Moni, editor, Nierstrasz, Oscar, editor, Pandu Rangan, C., editor, Steffen, Bernhard, editor, Sudan, Madhu, editor, Terzopoulos, Demetri, editor, Tygar, Doug, editor, Vardi, Moshe Y., editor, Weikum, Gerhard, editor, Domingo-Pascual, Jordi, editor, Manzoni, Pietro, editor, Palazzo, Sergio, editor, Pont, Ana, editor, and Scoglio, Caterina, editor

Published
2011
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16. Application Awareness for Extended Reality Services: 5G-Advanced and Beyond

Author

Amiri, Abolfazl, Paymard, Pouria, Andres-Maldonado, Pilar, Paris, Stefano, Pedersen, Klaus I., and Kolding, Troels

Abstract

Extended reality (XR) services form the basis of the metaverse, a fully immersive experience where users can interact with each other and digital objects in a three-dimensional real or imagined digital space. Past and ongoing standardization activities focus on enabling cellular networks to effectively support XR to ensure that the metaverse can be enabled everywhere. One enabling feature is application awareness (AA) within the service provisioning framework of 5G-Advanced. AA is extending the current quality of service (QoS) model to support a finer QoS granularity and add more detailed application information to improve radio resource management and eventually enhance users' immersive experience. Current and future AA innovations will enable cellular networks to improve system capacity and further optimize service provisioning to fit specific application needs. In this article, we present a comprehensive overview of AA for XR services in cellular networks and future research directions in that area.

Published
2024
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20. List of contributors

Author

Alagöz, Fatih, primary, Ali, Khitem Ben, additional, Amoretti, M., additional, Anpalagan, Alagan, additional, Arslan, Zemre, additional, Badis, Hakim, additional, Bahtiyar, Şerif, additional, Bisio, Igor, additional, Bocciarelli, Paolo, additional, Bouzouita, Meriam, additional, Canberk, Berk, additional, Carlà, Lorenzo, additional, Castro, Rodrigo, additional, Cherkaoui, Soumaya, additional, Chiti, Francesco, additional, Chuah, Teong Chee, additional, D’Ambrogio, Andrea, additional, Daneshtalab, Masoud, additional, Delucchi, Stefano, additional, Diallo, Ousmane, additional, Domènech, Josep, additional, El Bouabidi, Imen, additional, Erel, Muge, additional, Facchi, Nicolò, additional, Fantacci, Romano, additional, Fernandes, Diogo A.B., additional, Ferrari, G., additional, Freire, Mário M., additional, García, Daniel F., additional, Gil, José Antonio, additional, Granda, Juan C., additional, Gringoli, Francesco, additional, Guelzim, Tarik, additional, Gür, Gürkan, additional, Hadjadj-Aoul, Yassine, additional, Hamrioui, Sofiane, additional, Inácio, Pedro R.M., additional, Kakali, Vasiliki L., additional, Kamali, Maryam, additional, Kofman, Ernesto, additional, Kyriakopoulos, Constantine A., additional, Lalam, Mustapha, additional, Lavagetto, Fabio, additional, Lee, Ying Loong, additional, Lloret, Jaime, additional, Loo, Jonathan, additional, Lorenz, Pascal, additional, Loscri, Valeria, additional, Mansouri, Wahida, additional, Marchese, Mario, additional, Maskooki, Arash, additional, Mitton, Nathalie, additional, Mokdad, Lynda, additional, Monnet, Quentin, additional, Ndih, Eugene David Ngangue, additional, Neto, Miguel, additional, Nuño, Pelayo, additional, Obaidat, Mohammad S., additional, Ozcevik, Yusuf, additional, Papadimitriou, Georgios I., additional, Paris, Stefano, additional, Pecorella, Tommaso, additional, Peña-Ortiz, Raúl, additional, Petre, Luigia, additional, Picone, M., additional, Pont, Ana, additional, Portomauro, Giancarlo, additional, Rachedi, Abderrezak, additional, Rodrigues, Joel J.P.C., additional, Sabatino, Gabriele, additional, Sahuquillo, Julio, additional, Samaoui, Salima, additional, Selvamuthu, Dharmaraja, additional, Sene, Mbaye, additional, Sere, Kaisa, additional, Sharma, Nitin, additional, Soares, Liliana F.B., additional, Suárez, Francisco J., additional, Tabbane, Sami, additional, Trivedi, Kishor S., additional, Vaidyanathan, Kalyanaraman, additional, Varvarigos, Emmanouel (Manos), additional, Vegni, Anna Maria, additional, Viho, César, additional, Zangar, Nawel, additional, Zanichelli, F., additional, Zappatore, Sandro, additional, and Zarai, Faouzi, additional

Published
2015
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28. 2020 - Atlantic Hurricane Season: Past events, current situation, seasonal forecast and COVID-19 situation

Author

PROBST PAMELA, ANNUNZIATO ALESSANDRO, PROIETTI CHIARA, FONIO CHIARA, SANTINI MARZIA, PARIS STEFANO, and GIUSTOLISI LUCA

Abstract

The official “Atlantic Hurricane Season” (North Atlantic Ocean, Caribbean Sea and Gulf of Mexico) starts on 1 June and ends on 30 November. On average, 12 “named storms” (Tropical Storm or higher strength) occur each season, with an average of 6 becoming Hurricanes and 3 Major Hurricanes, while the climatological peak of activity is around 10 September. The Tropical Cyclones (TCs) could affect several vulnerable islands of the Caribbean area, causing damage and fatalities that could require international assistance from the humanitarian community. The past five seasons (2015-2019) have been analysed considering the TCs impact and the international humanitarian support provided. For the most significant events (e.g. MATTHEW in 2016, IRMA and MARIA in 2017, DORIAN in 2019), the Global Disasters Alerts and Coordination System (GDACS) issued a RED alert (at least three days in advance), timely alerting the international community. According to the official NOAA’s 2020 Atlantic Hurricane Season Outlooks, as well as most of the other seasonal forecasts published by other agencies, the TC activity for this season is forecasted to be above average. However, given the large uncertainty associated with the long term forecasts those estimations should be considered only indicative. NOAA will update its seasonal forecast in August 2020 before the typical peak of the season. This year the COVID-19 pandemic emergency is likely to affect the preparedness and response activities for the Hurricane season. It is therefore essential to consider it, adapting the evacuation plans and preparing people well in advance to follow new guidelines due to this multi-risks and complex situation. The guidelines might vary across countries, depending on the spread of the virus and the adopted containment measures. This report provides an update of the current pandemic emergency in the area and an overview of the guidelines issued so far. In this context, an Early Warnings System able to estimate the correct impact of TCs well in advance is even more essential for decision makers to take more informed decisions and make plans accordingly, also considering the potential effects of the climate change on the TCs activity. JRC is closely monitoring the TCs situation through GDACS (www.gdacs.org). The COVID-19 emergency is also monitored, through the JRC COVID-19 Dashboard (https://covid-statistics.jrc.ec.europa.eu/), which covers also the Caribbean, and other activities. In addition, JRC has also prepared a new GDACS section on the COVID-19 situation in the affected countries., JRC.E.1-Disaster Risk Management

Published
2020

29. Optimal routing configuration clustering through dynamic programming

Author

Al Najjar, Yacine, Paris, Stefano, Elias, Jocelyne, Leguay, Jeremie, Ben-Ameur, Walid, Huawei Technologies France [Boulogne-Billancour], Méthodes et modèles pour les réseaux (METHODES-SAMOVAR), Services répartis, Architectures, MOdélisation, Validation, Administration des Réseaux (SAMOVAR), Institut Mines-Télécom [Paris] (IMT)-Télécom SudParis (TSP)-Institut Mines-Télécom [Paris] (IMT)-Télécom SudParis (TSP), Département Réseaux et Services Multimédia Mobiles (RS2M), Institut Mines-Télécom [Paris] (IMT)-Télécom SudParis (TSP), Institut Polytechnique de Paris (IP Paris), and Centre National de la Recherche Scientifique (CNRS)

Subjects
[INFO.INFO-NI]Computer Science [cs]/Networking and Internet Architecture [cs.NI], Routage robuste, Réseaux logiciels, Calcul de chemins, Programmation dynamique
Abstract

International audience; Les réseaux SDN (software-defined networking) permettent d'optimiser globalement la configuration des réseaux en fonction du trafic. Idéalement, le réseau devrait être reconfiguré de manière dynamique afin de permettre une meilleure utilisation des ressources. Néanmoins, en pratique, les changements de routes ne peuvent pas être trop fréquents à cause de la lente mise à jour des équipements et de la dynamicité individuelle des flux. Pour trouver un bon compromis entre fréquence de reconfiguration et l'efficacité de l'utilisation des ressources, une nouvelle approche d'ingénierie de trafic basée sur le clustering robuste a été proposée dans [SFC + 18]. L'idée principale est de regrouper des scénarios de trafic futurs présentants des similitudes de routage et temporel. Pour résoudre le problème de clustering robuste d'une manière optimale et rapide, nous proposons un nouvel algorithme basé sur la programmation dynamique. Nous comparons l'algorithme avec l'approche heuristique de [SFC + 18] et la résolution de l'ILP sur des instances réelles. Les résultats montrent que notre approche est efficace pour trouver la solution optimale et améliore les performances du routage par rapport à l'heuristique. Mots-clefs : Réseaux logiciels, routage robuste, calcul de chemins, programmation dynamique

Published
2019

30. Resilient routing in SDN networks

Author

Leconte, Mathieu, Paris, Stefano, Leguay, Jérémie, Mathematical and Algorithmic Sciences Lab [Paris], Huawei Technologies France [Boulogne-Billancour], Laboratoire d'Informatique Paris Descartes (LIPADE - EA 2517), and Université Paris Descartes - Paris 5 (UPD5)

Subjects
Mots-clefs : Réseaux logiciel, [INFO.INFO-NI]Computer Science [cs]/Networking and Internet Architecture [cs.NI], routage, calcul de chemins, SRLGs, fiabilité
Abstract

International audience; Les réseaux SDN (software-defined networking) permettentàpermettent`permettentà un contrôleur centralisé de décider du routage. Afin d'´ etablir des routes fiables, il est souvent nécessaire de trouver plusieurs chemins dans le réseau ne partageant pas les mêmes ressouresàressoures`ressouresà risque, communément appelé SRLG pour Shared Risk Link Group. Tout en assurant cette fiabilité, l'objectif est aussi de minimiser un coût, qui intègre des indicateurs de congestion ou de latence. Ceprobì eme peutêtrepeutˆpeutêtre modélisé par un programme linéaire en nombres entiers (ILP). Nous proposons ici une méthode efficace pour sa résolution qui utilise une relaxation fractionnaire bien choisie, dont nous montrerons qu'elle m` ene en fait la plupart du tempsàtemps`tempsà une solutionentì ere. La résolution de ceprobì eme relaxé utilise une méthode de génération de colonnes (CG), o` u chaque colonne représente un chemin dans le réseau avec une notion de coût modifié prenant en compte les SRLGs ; les nouvelles colonnes peuventêtrepeuventˆpeuventêtre obtenues par un algorithme efficace de programmation dynamique quí etend les algorithmes classiques de calcul de plus court chemin. Afin de limiter l'explosion combinatoire potentielle, nous présentonsprésentons´présentonségalement une heuristique qui accélére le calcul d'une solution résiliente tout en préservant de très bonnes performances. Les résultats numériques montrent que notre approche donne une solution de très bonne qualité dans un temps de calcul raisonnable sur des instances de réseau réalistes.

Published
2018

34. Slice-based column generation for network slicing

Author

Destounis, Apostolos, primary, Paschos, Georgios, additional, Paris, Stefano, additional, Leguay, Jeremie, additional, Gkatzikis, Lazaros, additional, Vassilaras, Spyridon, additional, Leconte, Mathieu, additional, and Medagliani, Paolo, additional

Published
2018
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36. Tropical Cyclone ENAWO - Post-Event Report

Author

PROBST PAMELA, PROIETTI CHIARA, ANNUNZIATO ALESSANDRO, PARIS STEFANO, and WANIA ANNETT

Abstract

Tropical Cyclones (TCs) are among the most damaging events. They affect the population with three dangerous effects: strong wind, heavy rain and storm surge. JRC has developed a system used in Global Disaster Alert and Coordination System (GDACS) that includes the analysis of all these effects for every TC occurring worldwide to assess the overall impact. This document is the first POST-EVENT Report, which is a new type of report produced by the JRC after a major event aimed to report the real status of the impact that occurred, based on media reports, onsite analyses, and satellite images. The event analysed in this report is the intense TC ENAWO, that made landfall in north-eastern Madagascar on 7 March 2017, killing more than 80 people and causing extensive damage, especially in Sava and Analanjirofo regions. Authorities issued a "declaration of national emergency" and formally requested international assistance on 14 March. GDACS issued the first RED alert (for high winds) in Madagascar on 3 March. The Emergency Response Coordination Centre (ERCC) of DG ECHO activated ARISTOTLE on 5 March and the Copernicus Emergency Management Service (EMS) on 7 March. The responses of the alert and information systems are analysed and the results are compared with the damage reported by national authorities and satellite images analysis. In order to improve the current early warning system and impact estimations, JRC is implementing a new method to evaluate the areas potentially most affected by a TC, using new datasets and classifications. The results are also included in the report., JRC.E.1-Disaster Risk Management

Published
2017

41. Socially-Aware Interference Mitigation Game in Body-to-Body Networks

Author

Meharouech, Amira, Elias, Jocelyne, Paris, Stefano, Mehaoua, Ahmed, Laboratoire d'Informatique Paris Descartes (LIPADE - EA 2517), and Université Paris Descartes - Paris 5 (UPD5)

Subjects
[INFO]Computer Science [cs], [INFO] Computer Science [cs]
Abstract

International audience; —Wireless wearable devices have recently gained increasing attention from industry in fields such as health, fitness, and entertainment. In this paper, we consider a dynamic system composed of several Body-to-Body Networks (BBNs) based on wearable technology, and we analyze the joint mutual and cross-technology interference problem due to the utilization of a limited number of channels by different transmission technologies (i.e., ZigBee and WiFi) sharing the same radio spectrum. To this end, we propose a game theoretical approach to address the problem of Socially-aware Interference Mitigation (SIM) in BBNs. Our approach considers a two-stage channel allocation scheme: a BBN-stage for inter-WBANs' communications and a WBAN-stage for intra-WBAN communications, involving mutual and cross-technology considerations at each stage. We develop best response algorithms that converge fast to Nash equilibrium points. Simulation results show the efficiency of SIM game in optimizing the channel allocation in BBNs. Index Terms—Body-to-Body Networks, 2.4 GHz ISM band, Cross-Technology Interference, Channel Allocation, Game Theory, Nash Equilibrium.

Published
2014

49. Interoperability of Mobile Devices for Crisis Management: Outcomes of the 1st JRC ECML Crisis Technology Workshop

Author

RESTER MARKUS, DE GROEVE Tom, ANNUNZIATO Alessandro, GALLIANO Daniele, HIRNER ANDREAS, VERNACCINI Luca, and PARIS Stefano

Abstract

The 1st JRC ECML Crisis Technology Workshop on Mobile Interoperability for International Field Deployment took place in the European Crisis Management Laboratory (ECML) of the Joint Research Centre in Ispra, Italy, from 12 to 13 March 2012. 37 participants attended the workshop. They were coming from: 11 EU countries and Norway, Brazil and US, 3 UN agencies, and 2 NGOs. The workshop's purpose was to measure the added value of mobile assessment technology for rapid situation assessment in international emergency operations. Seven mobile assessment systems were deployed among the participants and needed to provide, in an interoperable way, real-time data to a single electronic On-Site Operations Coordination Centre (eOSOCC). The performance of the systems was benchmarked against a traditional paper-based assessment that was conducted simultaneously (pOSOCC). In the workshop experiment both paper and electronic On-Site Operations Coordination Centres (OSOCCs) reached a similar situation awareness in the same time, but only the eOSOCC had products available as sharable electronic maps and documents. The final map with all incoming feeds in the eOSOCC was very cluttered and there was considerable information overload. Therefore sophisticated editing, filtering, and visualization functionalities have to be available for eOSOCC staff. Mobile technology is mature and can be deployed in an interoperable way. However, then the information of each system leaves the proprietary applications for processing and analyzing the data. The main impression from the eOSOCC team was that there is a lot of potential. Having access in real-time to field information was felt to be extremely useful. Still missing are tools and procedures for exploiting this benefit. Most important are tools to curate, filter, manipulate, edit, and delete assessment information of all teams. A dedicated eOSOCC software suite is needed that gives full control over the data to the eOSOCC staff., JRC.G.2-Global security and crisis management

Published
2012

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