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133 results on '"Macedo, Daniel F."'

1. Enhancing Network Slicing Architectures with Machine Learning, Security, Sustainability and Experimental Networks Integration

Author

Martins, Joberto S. B., Carvalho, Tereza C., Moreira, Rodrigo, Both, Cristiano, Donatti, Adnei, Corrêa, João H., Suruagy, José A., Corrêa, Sand L., Abelem, Antonio J. G., Ribeiro, Moisés R. N., Nogueira, Jose-Marcos, Magalhães, Luiz C. S., Wickboldt, Juliano, Ferreto, Tiago, Mello, Ricardo, Pasquini, Rafael, Schwarz, Marcos, Sampaio, Leobino N., Macedo, Daniel F., de Rezende, José F., Cardoso, Kleber V., and Silva, Flávio O.

Subjects
Computer Science - Networking and Internet Architecture, Computer Science - Artificial Intelligence, I.2.1, C.2.1, C.2.3
Abstract

Network Slicing (NS) is an essential technique extensively used in 5G networks computing strategies, mobile edge computing, mobile cloud computing, and verticals like the Internet of Vehicles and industrial IoT, among others. NS is foreseen as one of the leading enablers for 6G futuristic and highly demanding applications since it allows the optimization and customization of scarce and disputed resources among dynamic, demanding clients with highly distinct application requirements. Various standardization organizations, like 3GPP's proposal for new generation networks and state-of-the-art 5G/6G research projects, are proposing new NS architectures. However, new NS architectures have to deal with an extensive range of requirements that inherently result in having NS architecture proposals typically fulfilling the needs of specific sets of domains with commonalities. The Slicing Future Internet Infrastructures (SFI2) architecture proposal explores the gap resulting from the diversity of NS architectures target domains by proposing a new NS reference architecture with a defined focus on integrating experimental networks and enhancing the NS architecture with Machine Learning (ML) native optimizations, energy-efficient slicing, and slicing-tailored security functionalities. The SFI2 architectural main contribution includes the utilization of the slice-as-a-service paradigm for end-to-end orchestration of resources across multi-domains and multi-technology experimental networks. In addition, the SFI2 reference architecture instantiations will enhance the multi-domain and multi-technology integrated experimental network deployment with native ML optimization, energy-efficient aware slicing, and slicing-tailored security functionalities for the practical domain., Comment: 10 pages, 11 figures

Published
2023
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3. OpenFlow data planes performance evaluation

Author

Costa, Leonardo C., Vieira, Alex B., de Britto e Silva, Erik, Macedo, Daniel F., Vieira, Luiz F.M., Vieira, Marcos A.M., da Rocha Miranda, Manoel, Junior, Batista, Gabriel Fanelli, Polizer, Augusto Henrique, Gonçalves, André Vinícius Gomes Santos, Gomes, Geraldo, and Correia, Luiz H.A.

Published
2021
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14. Reunião Presencial do Projeto SFI2

Author

Carvalho, Tereza C. Carvalho, Martins, Joberto S. B., Moreira, Rodrigo, Macedo. Daniel F., Cardoso, Kleber, Both, Cristiano, Correa, João H., and Ribeiro, Moisés N.

Subjects
Machine Learning, Sustainability, Network Slicing, Security, Experimental Networks, NS Architecture
Abstract

This project deliverable summarizes the technical discussions and presents the slides and additional decisions and technical information concerning the SFI2 Project Workshop realized in Uberlândia, Minas Gerais. The SFI2 project (https://sites.google.com/view/sfi2/home) workshop presentations and technical discussions occurred at the Federal University of Uberlândia (UFU) on April 12th - 13th 2023., {"references":["G. N. Dias, J. F. Rezende, L N. Ciuffo, I. Machado, Flavio Silva, Tereza C. de Brito, F. Redigolo, Joberto S. B. Martins, Leobino Sampaio, and Antonio Abelem. SFI2 - Slicing Future Internet Infrastructures project. In Proceedings of the The Global Experimentation for Future Internet, pages 1–3, Coimbra, Portugal, November 2019.","Joberto S B Martins, Tereza C. Carvalho, Flavio Silva, and Rodrigo Moreira. SFI2 Network Slicing Reference Architecture. Technical Report TR03/2022, Universidade de São Paulo - USP, 2022.","Rodrigo Moreira, Joberto S. B. Martins, Tereza C. M. B. Carvalho, and Flávio de Oliveira Silva. On Enhancing Network Slicing Life-Cycle Through an AI-Native Orchestration Architecture. In Leonard Barolli, editor, Advanced Information Networking and Applications, Lecture Notes in Networks and Systems, pages 124–136, Cham, 2023. Springer International Publishing.","Joberto S B Martins. Communication Slice Allocation for Network Slicing - Position Points, volume 24 of JSMNet Networking and Technical Review. 2023."]}

Published
2023
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15. Enhancing Network Slicing Architectures With Machine Learning, Security, Sustainability and Experimental Networks Integration

Author

Martins, Joberto S. B., primary, Carvalho, Tereza C., additional, Moreira, Rodrigo, additional, Both, Cristiano Bonato, additional, Donatti, Adnei, additional, Corrêa, João H., additional, Suruagy, José A., additional, Corrêa, Sand L., additional, Abelem, Antonio J. G., additional, Ribeiro, Moisés R. N., additional, Nogueira, José-marcos S., additional, Magalhães, Luiz C. S., additional, Wickboldt, Juliano, additional, Ferreto, Tiago C., additional, Mello, Ricardo, additional, Pasquini, Rafael, additional, Schwarz, Marcos, additional, Sampaio, Leobino N., additional, Macedo, Daniel F., additional, De Rezende, José F., additional, Cardoso, Kleber V., additional, and De Oliveira Silva, Flávio, additional

Published
2023
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19. A Knowledge Plane for Autonomic Context-Aware Wireless Mobile Ad Hoc Networks

Author

Macedo, Daniel F., dos Santos, Aldri L., Nogueira, José Marcos S., Pujolle, Guy, Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Nierstrasz, Oscar, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Sudan, Madhu, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Vardi, Moshe Y., Series editor, Weikum, Gerhard, Series editor, Pavlou, George, editor, Ahmed, Toufik, editor, and Dagiuklas, Tasos, editor

Published
2008
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21. SFI2 Project Workshop

Author

Carvalho, Tereza C., Martins, Joberto S. B., Silva, Flávio, Rezende, José F., Macedo, Daniel F., Suruagy, José A., Cardoso, Kleber V., Corrêa, Sand L., Pasquini, Rafael, Sampaio. Leobino N., Both, Cristiano B., Magalhães, Luiz C. S., Ribeiro, Moisés R. N., Ferreto, Tiago C., Moreira, Rodrigo, and Donatti, Adnei

Subjects
Machine Learning, Sustainability, Network Slicing, Security, Experimental Networks, NS Architecture
Abstract

The future Internet and computer networks scenario requires a dynamic, on-demand, easily manageable, intelligent, and flexible network capable of supporting the different requirements of current and future applications. For attaining this objective, the research community is turning to the networks of the future involving initiatives such as the Next Generation Internet (NGI) in Europe and Tomorrow’s Internet Project in the United States, in addition to several other actions such as the next generation of mobile telecommunications networks for 2030, 6G. In Brazil, projects such as FIBRE [1], FIWARE [2], FUTEBOL [3], 5GINFIRE[2], NECOS [4], CloudNEXT, and SFI2 [5] [6], carried out in collaborations between Europe and Brazil, create conditions to experiment with different scenarios of networks and applications with a focus on the future. This SFI2 Workshop aims to discuss, exchange research ideas and propose directions and solutions toward the utilization of network slicing (NS) as a new paradigm capable to support future Internet evolution. SFI2 will focus on experimental network integration as a guidance direction for these discussions and proposals., {"references":["Antonio Abelem, Michael Stanton, Iara Machado, Marcos Salvador, Luiz Magalhaes, Natalia Fernandes, Sand Correa, Kleber Cardoso, Cesar Marcondes, Joberto Martins, Jose Monteiro, Tereza Carvalho, and José Rezende. FIT@ BR - A Future Internet Testbed in Brazil. In Proceedings of the APAN – Network Research Workshop, pages 1–8, 2013.","Aloizio P. Silva, Christos Tranoris, Spyros Denazis, Susana Sargento, João Pereira, Miguel Luís, Rodrigo Moreira, Flávio Silva, Ivan Vidal, Borja Nogales, Reza Nejabati, and Dimitra Simeonidou. 5GInfire: An End-to-End Open5G Vertical Network Function Ecosystem. Ad Hoc Networks, 93:101895, October 2019.","Cristiano Both, Rafael Guimaraes, Frank Slyne, Juliano Wickboldt, Magnos Martinello, Cristina Dominicini, Rafael Martins, Yi Zhang, Diego Cardoso, Rodolfo Villaca, Isabella Ceravolo, Reza Nejabati, Johann Marquez-Barja, Marco Ruffini, and Luiz DaSilva. FUTEBOL Control Framework: Enabling Experimentation in Convergent Optical, Wireless, and Cloud Infrastructures. IEEE Communications Magazine, 57(10):56–62, October 2019.","Stuart Clayman, Augusto Neto, Fábio Verdi, Sand Correa, Silvio Sampaio, Ilias Sakelariou, Lefteris Mamatas, Rafael Pasquini, Kleber Cardoso, Francesco Tusa, Christian Rothenberg, and Joan Serrat. The NECOS Approach to End-to-End Cloud-Network Slicing as a Service. IEEE Communications Magazine, 59(3):91–97, March 2021. Conference Name: IEEE Communications Magazine.","Gustavo Neves Dias, José Ferreira Rezende, Leandro Neumann Ciuffo, Iara Machado, Flavio de Oliveira Silva, Tereza Cristina de Brito, Fernando Frota Redigolo, Joberto S. B. Martins, Leobino N. Sampaio, and Antonio Jorge Gomes Abelem. SFI2 - Slicing Future Internet Infrastructures project. In Proceedings of the The Global Experimentation for Future Internet (GEFI), pages 1–3, Coimbra, Portugal, November 2019.","Flávio de Oliveira Silva, Tereza Cristina Carvalho, Joberto S. B. Martins, Cristiano Bonato Both, and Daniel Fernandes Macedo. Slicing Future Internet Infrastructures Round Table. Technical Report TR01/2021, Universidade de São Paulo (USP), São Paulo, Brazil, 2021."]}

Published
2022
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35. Transmission power control techniques for wireless sensor networks

Author

Correia, Luiz H.A., Macedo, Daniel F., Dos Santos, Aldri L., Loureiro, Antonio A.F., and Nogueira, Jose Marcos S.

Subjects
Energy conservation -- Analysis, Energy conservation -- Methods, Sensors -- Analysis, Sensors -- Methods
Abstract

To link to full-text access for this article, visit this link: http://dx.doi.org/10.1016/j.comnet.2007.07.008 Byline: Luiz H.A. Correia (a)(b), Daniel F. Macedo (a)(c), Aldri L. dos Santos (d), Antonio A.F. Loureiro (a), Jose Marcos S. Nogueira (a) Keywords: Wireless sensor networks; Transmission power control; Medium access control; Energy consumption Abstract: Communication is usually the most energy-consuming event in Wireless Sensor Networks (WSNs). One way to significantly reduce energy consumption is applying transmission power control (TPC) techniques to dynamically adjust the transmission power. This article presents two new TPC techniques for WSNs. The experimental evaluation compares the performance of the TCP techniques with B-MAC, the standard MAC protocol of the Mica 2 platform. These experiments take into account different distances among nodes, concurrent transmissions and node mobility. The new transmission power control techniques decrease energy consumption by up to 57% over B-MAC while maintaining the reliability of the channel. Under a low mobility scenario, the proposed protocols delivered up to 95% of the packets, showing that such methods are able to cope with node movement. We also show that the contention caused by higher transmission levels might be lower than analytical models suggest, due to the action of the capture effect. Author Affiliation: (a) Federal University of Minas Gerais, Belo Horizonte-MG, Brazil (b) Federal University of Lavras, Lavras-MG, Brazil (c) Universite Pierre et Marie Curie-Paris6, France (d) Federal University of Parana, Curitiba-PR, Brazil Article History: Received 28 November 2006; Revised 28 March 2007; Accepted 18 July 2007 Article Note: (miscellaneous) Responsible Editor: G. Morabito

Published
2007

42. QoE-Based Video Orchestration for 4G Networks

Author

Carvalho, Marcos, primary, Silva, Vinicius F., additional, de Britto e Silva, Erik, additional, Macedo, Daniel F., additional, de Resende, Henrique C. C., additional, Marquez-Barja, Johann M., additional, Both, Cristiano B., additional, Bardini, Augusto Zanella, additional, and Wickboldt, Juliano, additional

Published
2019
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49. Optical and wireless network convergence in 5G systems – an experimental approach

Author

Marques, Paulo, primary, do Carmo, Alexandre P., additional, Frascolla, Valerio, additional, Silva, Carlos, additional, Sena, Emanuel D. R., additional, Braga, Raphael, additional, Pinheiro, Joao, additional, Astudillo, Carlos A., additional, de Andrade, Tiago P. C., additional, Gama, Eduardo S., additional, Bittencourt, Luiz F., additional, Villas, Leandro A., additional, Madeira, Edmundo R. M., additional, da Fonseca, Nelson L. S., additional, Both, Cristiano, additional, Lando, Gabriel, additional, Schimuneck, Matias, additional, Wickboldt, Juliano, additional, Trevisan, Ana P. V., additional, de Jesus Martins, Rafael, additional, Vassallo, Raquel F., additional, de Queiroz, Felippe M., additional, Picoreti, Rodolfo, additional, Gomes, Roberta L., additional, Dominicini, Cristina K., additional, Garcia, Victor, additional, Guimaraes, Rafael S., additional, Villaca, Rodolfo, additional, Martinello, Magnos, additional, Ribeiro, Moises R.N., additional, Macedo, Daniel F., additional, Silva, Vinicius F., additional, Guimaraes, Julio C. T., additional, Colman-Meixner, Carlos, additional, Nejabati, Reza, additional, Simeonidou, Dimitra, additional, Zhang, Yi, additional, Slyne, Frank, additional, Alvarez, Pedro, additional, Collins, Diarmuid, additional, Ruffini, Marco, additional, DaSilva, Luiz A., additional, and Marquez-Barja, Johann M., additional

Published
2018
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