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Sobre

Sobre

Manuel Alberto Pereira Ricardo é Licenciado (1988) e Doutor (2000) em Engenharia Eletrotécnica e de Computadores, ramo de Telecomunicações, pela Faculdade de Engenharia da Universidade do Porto (FEUP). Atualmente Manuel Ricardo é professor catedrático da FEUP onde leciona unidades curriculares de Comunicações Móveis e Redes de Computadores nos cursos de mestrado e de doutoramento em Engenharia Eletrotécnica e de Computadores, Engenharia Informática e de Computação e Telecomunicações. É membro da Comissão Executiva do DEEC da FEUP e do Conselho Científico do Programa Doutoral em Engenharia Eletrotécnica e de Computadores. Ao longo do seu percurso profissional coordenou no INESC TEC a área de Wireless Networks (2001-2011), o Centro de Telecomunicações e Multimédia (2011-2018), foi Administrador do INESC TEC (2018-2021), sendo atualmente diretor associado deste instituto com foco nas telecomunicações. Criou a Rede Temática nacional de Comunicações Móveis (RTCM, 2004). É membro do “Steering Committee” do consórcio do simulador de redes de comunicações ns-3. Participou em 30+ projetos de investigação e tem 150+ artigos publicados. As suas áreas de investigação são as redes de comunicações móveis, qualidade de serviço, gestão de recursos rádio, controlo de congestionamento de redes, caracterização de tráfego e avaliação de desempenho.

Detalhes

Detalhes

  • Nome

    Manuel Ricardo
  • Cargo

    Diretor Associado
  • Desde

    01 janeiro 1996
027
Publicações

2024

Vision-Radio Experimental Infrastructure Architecture Towards 6G

Autores
Teixeira, FB; Ricardo, M; Coelho, A; Oliveira, HP; Viana, P; Paulino, N; Fontes, H; Marques, P; Campos, R; Pessoa, LM;

Publicação
CoRR

Abstract

2024

Autonomous Control and Positioning of a Mobile Radio Access Node Employing the O-RAN Architecture

Autores
Queirós, G; Correia, P; Coelho, A; Ricardo, M;

Publicação
2024 19TH WIRELESS ON-DEMAND NETWORK SYSTEMS AND SERVICES CONFERENCE, WONS

Abstract
Over the years, mobile networks were deployed using monolithic hardware based on proprietary solutions. Recently, the concept of open Radio Access Networks (RANs), including the standards and specifications from O-RAN Alliance, has emerged. It aims at enabling open, interoperable networks based on independent virtualized components connected through open interfaces. This paves the way to collect metrics and to control the RAN components by means of software applications such as the O-RAN-specified xApps. We propose a private standalone network leveraged by a mobile RAN employing the O-RAN architecture. The mobile RAN consists of a radio node (gNB) carried by a Mobile Robotic Platform autonomously positioned to provide on-demand wireless connectivity. The proposed solution employs a novel Mobility Management xApp to collect and process metrics from the RAN, while using an original algorithm to define the placement of the mobile RAN. This allows for the improvement of the connectivity offered to the User Equipments.

2024

Mitigating information asymmetry in 5G networks

Autores
Silva, HBGE; Santos, RMN; Ricardo, M;

Publicação
INTERNET POLICY REVIEW

Abstract
The implementation of traffic differentiation measures by internet service providers (ISPs) has raised concerns regarding net neutrality, potentially leading to discriminatory practices that challenge existing regulatory frameworks. The complexity of this issue intensifies with the advent of 5G networks as they dynamically assemble elements of the physical infrastructure to create logically segregated domains customised to accommodate usage scenarios with specific requirements, resulting in the categorisation of users, applications, and services into distinct groups which possess the capacity to disrupt the non-discriminatory treatment of data flows. Within this context, a pivotal question arises: how can regulatory authorities effectively evaluate traffic differentiation in 5G networks? In response, this paper proposes an innovative application of the standardised network data analytics function (NWDAF) to facilitate the assessment of internet traffic differentiation. We introduce this novel concept and demonstrate its implementation through a proof -of -concept prototype. By leveraging the NWDAF, regulators may obtain direct and automatic access to performance metrics of 5G networks, enabling the analysis of the traffic management mechanisms employed by ISPs.

2024

CONVERGE: A Vision-Radio Research Infrastructure Towards 6G and Beyond

Autores
Teixeira, FB; Ricardo, M; Coelho, A; Oliveira, HP; Viana, P; Paulino, N; Fontes, H; Marques, P; Campos, R; Pessoa, LM;

Publicação
2024 JOINT EUROPEAN CONFERENCE ON NETWORKS AND COMMUNICATIONS & 6G SUMMIT, EUCNC/6G SUMMIT 2024

Abstract
Telecommunications and computer vision have evolved separately so far. Yet, with the shift to sub-terahertz (sub-THz) and terahertz (THz) radio communications, there is an opportunity to explore computer vision technologies together with radio communications, considering the dependency of both technologies on Line of Sight. The combination of radio sensing and computer vision can address challenges such as obstructions and poor lighting. Also, machine learning algorithms, capable of processing multimodal data, play a crucial role in deriving insights from raw and low-level sensing data, offering a new level of abstraction that can enhance various applications and use cases such as beamforming and terminal handovers. This paper introduces CONVERGE, a pioneering vision-radio paradigm that bridges this gap by leveraging Integrated Sensing and Communication (ISAC) to facilitate a dual View-to-Communicate, Communicate-to-View approach. CONVERGE offers tools that merge wireless communications and computer vision, establishing a novel Research Infrastructure (RI) that will be open to the scientific community and capable of providing open datasets. This new infrastructure will support future research in 6G and beyond concerning multiple verticals, such as telecommunications, automotive, manufacturing, media, and health.

2024

Joint Mobile Cell Positioning and Scheduler Selection in Locations Characterised by Substantial Obstacles

Autores
Correia, PF; Coelho, A; Ricardo, M;

Publicação
CoRR

Abstract

Teses
supervisionadas

2023

Autonomous Control and Positioning of a Mobile 5G Radio Access Node Employing the O-RAN Architecture

Autor
Gonçalo Moura Tomé Fraguito Queirós

Instituição
UP-FEUP

2023

Time-sensitive mmWave mobile cell for assisting cellular networks with ultra-reliable low latency communications

Autor
Paulo Jorge Furtado Correia

Instituição
UP-FEUP

2023

Net Neutrality in the 5G/6G Era

Autor
Rúben Daniel Nunes Santos

Instituição
UP-FEUP

2023

Methods and techniques for managing communications functionalities of remotely deployed mobile private 5G/6G networks with core functions located in datacenters and connected by satellite links

Autor
Júlio Gabriel Chilela

Instituição
UP-FEUP

2023

Traffic-aware Management of Communications Resources in Flying Networks

Autor
André Filipe Pinto Coelho

Instituição
UP-FEUP