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Seminario pubblico di Emanuele De Santis (Procedura selettiva per n.1 posto di Ricercatore a tempo determinato tipologia A - SC 09/G1 SSD ING-INF/04)

Speaker: 
Emanuele De Santis
Data dell'evento: 
Mercoledì, 10 May, 2023 - 10:00
Luogo: 
Aula Magna
Contatto: 
marilena.vendittelli@uniroma1.it

In ottemperanza ai requisiti previsti dalla procedura selettiva per n. 1  posto di Ricercatore a Tempo Determinato di tipologia A per il Settore  Concorsuale 09/G1, Settore Scientifico-Disciplinare ING-INF/04,
presso il Dipartimento di Ingegneria informatica, automatica e gestionale  Antonio Ruberti dell’Università degli Studi di Roma “La Sapienza”,  bandita con D.D. n.  79/2023 del 28/02/2023,  Emanuele De Santis terrà un seminario sulla sua attività di ricerca  mercoledì 10 maggio, alle ore 10:00, presso l'Aula Magna del DIAG.

Sarà anche possibile seguire il seminario via Zoom: 

https://uniroma1.zoom.us/j/99206260108?pwd=UFlqZ2NnYU9hczU2Z3NiN0xpaTlHdz09

ID riunione: 992 0626 0108 

Passcode: 271191

 

TITLE Control methods and applicative scenarios for next-generation cellular telecommunication networks

ABSTRACTIn the last few decades it has been observed an ever-increasing demand for bandwidth, low-latency, and broad connectivity. 5G networks provided enhanced broadband and very-low-latency services, which should sustain new killer applications like AR/VR, very-high-resoluton streaming, etc. Also other types of services, requiring lower levels of QoS, are still commonly requested by the users, For all these services it is possible to exploit the presence of multiple Radio Access Technologies (RATs) available at the same time. Moreover, to sustain the economic development of such newer communication technologies, new industrial use cases for 5G/B5G networks have to be identified to drive the design of next-generation cellular networks towards the definition of new requirements and services. The research I carried out focuses on the definition of a set of control methodologies to support multi-connectivity and convergence between different RATs, providing adequate QoE/QoS levels to the final users, as well as on the exploitation of 5G networks in the smart grid context, in particular focusing on the problem of smart charging a fleet of plug-in electric vehicles for the provisioning of frequency regulation services to the electricity grid.

 

BIOEmanuele De Santis received the PhD in Automatic Control, Bioengineering and Operational Research (Curriculum in Automatic Control) in 2023 at Sapienza University of Rome, where he received the Master's Degree in Engineering in Computer Science in 2019 and the Bachelor Degree in Computer and Control Engineering in 2017. He is currently a post-doc research fellow at DIAG. His research focuses on the control of cellular radio access networks, even in presence of multiple RATs, and on the control of smart grids for the provisioning of regulation services to the network.

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